Chemical Product Finder OCT 2015

Page 1

The Journal of Materials & Equipment for the Process Industries

Vol. 34 No.5

www.cpfindia.com Vol. 34 No. 5 Total Pages 68 October 2015 Mumbai ` 100

Chemical Products Finder OCTOBER 2015 MUMBAI ` 100

ChemTECH WORLD EXPO

South 2015

Gujarat 2016

Mumbai 2017

10-12, December 2015 Chennai, India

10-12, February 2016 Ahmedabad, India

14-17, February 2017 Mumbai, India


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• Silica – De-agglomeration of silica slurry before drying • Pharmaceuticals – Efficient Dissolution of soluble impurities during washing • Solids Dissolution – Reduction of solids dissolution time in mixing, reaction, etc. • Paper – Separation of Lignin from waste black liquor • CMC – Processing & Homogenising of CMC powder in liquid • Tea – Recovery of Caffeine from spent tea

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CHEMICAL PRODUCTS FINDER RNI REGISTRATION NO. 39849/82 Chairman Publisher & Printer Chief Executive Officer

Jasu Shah Maulik Jasubhai Shah Hemant Shetty

EDITORIAL Editor Asst Editor Sub-Editor Design Team Marketing Co-ordinator Subscription Team Production Team

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Registered Office: 26 Maker Chambers VI, 2 nd Floor, Nariman Point, Mumbai 400001, INDIA Tel: +91-22-4037 3737, Fax: +91-22-2287 0502, E-mail: sales@jasubhai.com CHEMICAL PRODUCTS FINDER (CPF) is a product-based news magazine designed to serve the business-information needs of the chemical, process and allied industries in India. It carries profiles of all kinds of chemical products, plant and equipment, process materials, and services - both Indian and foreign with illustrations. Printed and published by Mr Maulik Jasubhai Shah on behalf of Jasubhai Media Private Limited, 26 Maker Chambers VI, Nariman Point, Mumbai 400 021 and printed at The Great Art Printers, 25, S A Brelvi Road, Fort, Mumbai 400 001 and published from Mumbai. Editor: Ms Mittravinda Ranjan, 26, Maker Chambers VI, Nariman Point, Mumbai 400 021.

4 | October 2015 | Chemical Products Finder

CONTENTS Vol. 34 No.5 OCTOBER 2015 Mumbai ` 100 PUBLISHED SINCE 1982

Anniversary Special COMPANY PROFILES Shachi Engineering Pvt Ltd Shavo Group

8 16

INTERVIEW “Chembond has prided itself on being the ‘First Choice’ for many customers” - N C Padia, Vice President, Chembond Chemicals Ltd, Navi Mumbai

19

FOCUS PRODUCTS Pumps, Valves, Actuators, Compressors, Pipes and Pipe Fittings & Seals

24

Laboratory/Analytical Instruments & Weighing Solutions

29

Plant & Machinery

31

Filtration & Separation

32

Instrumentation, Process Control & Automation

33

Materials Handling, Packaging & Logistics

34

Boilers, Heat Exchangers & Cooling Towers

35

Dryers, Evaporators & Fittings

36

Pollution Control, Environment Management & Water and Waste Water Treatment

37

GENERAL PRODUCTS

38


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FEATURES Electrostatic Explosion Hazard for Ignition-Sensitive Dusts - Manju Mittal, Sr Pr Scientist, Fire Research, Laboratory, CSIR-Central Building Research Institute, Uttarakhand

40

Reliable Sealing of Heat Exchangers with ePTFE - Christian Wimmer, Product Specialist, W L Gore & Associates GmbH, Germany

45

Purifying Water with Plasma - Dr S S Verma, Professor of Physics, SLIET, Longowal, Punjab 48 Loading Bay – the Heart and Soul of a Warehouse - Kartik Gandhi, Director, Gandhi Automations Pvt Ltd, Mumbai

51

MARKETING INITIATIVE The Evolution of the Species - Italvacuum Srl, Italy

53

Adsorption Chillers for Chemical Industry - Ashok Prusty, Executive Vice President and Sonali Dutta, Vice President – Corporate Affairs, Bry-Air (Asia) Pvt Ltd

55

INDUSTRY NEWS

59

TECHNOLOGY NEWS

60

PROJECT UPDATE

61

FORTHCOMING EVENTS

63

BOOKSHELF

64

PRODUCT INDEX

65

ADVERTISERS’ INDEX

66

6 | October 2015 | Chemical Products Finder


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Regional Offices at Ahmedabad, Bangalore, Baroda, Chandigarh, Delhi, Pune. Dealers at: Aurangabad, Chennai, Goa, Indore.


Company profile

ous ty –

Shachi Engineering Pvt Ltd solutions encompass the entire range o f s e r v i c e s f o r C h e m i c a l , D y e s t u f f , Fertiliser, Detergent, Pharmaceuticals, Ceramics, Enzymes, herbals, Food & Dairy industries. Our cumulative experience spans over more than three decades. We are basically an EPC contractor with our own manufacturing unit at Pune. In

addition to this, we have a number of dedicated, qualified and experienced engineers who are involved in design, engineering, fabrication, project execution, erection and commissioning. We have supplied a number of spray drying plants, flash drying plants, multiple effect evaporators, conical mixers and large numbers of specialised

Our Product Range M S Shanbhag, MD, Shachi Engineering Pvt Ltd

W

e, Shachi Engineering Pvt Ltd - an emerging in export business unit, takes pride to introducing ourselves as an ISO 9001-2008 certified company. Established in 1998, Shachi Engineering Pvt Ltd - currently associated as a partner in growth with more than 200 companies - has commendable achievements with over 350 installations across 5 countries. We are now entering in the European Continent. Operating from Pune, our

Dryers • Spray Dryers • Spin Flash Dryers • Cage Mill Flash Dryers • Closed Loop Dryers • Continuous Fluid Dryers • Rotary Dryers • Integrated Fluid Bed Dryer (Cocurrent Flow, CounterCurrent Flow, Mixed Flow)

Evaporators • Falling Film Evaporator • Rising Film Evaporator • Forced Circulation Evaporator • Agitated Thin Film Evaporator • Hybrid Evaporator

Spray Coolers • Open Loop • Closed Loop Turnkey Projects: • Zero Liquid Discharge Plant • Milk Powder Plant • Detergent Powder Plant

Allied Products • Mixers – Vertical Cone Mixer/Dryer (Nauta Mixer/Dryer) • Blenders – Ribbon/Online/Double Cone • CIP Systems • Duct Gas Burner

equipment to a number of clients across India and abroad. We are also involved in renovating and upgrading of a large number spray drying plants, flash drying plants, multiple effect evaporators etc. Recently, we have expanded our manufacturing capability by adding few new equipment. We are in position to take additional work of design, engineering and fabrication of process equipment in stainless steel, carbon steel and any material as per the requirement. The plants and equipment are customised as per the requirements. ◘

Group photo of the employees

Shachi Engineering Pvt Ltd Gat No. 271, Sr. No. 38, A/Po. Bhare, Tal. Mulshi, Pirangut, Dist.: Pune, 412115, Maharashtra, India. T: +91 20 66546923/905 /936, +91 9689944889, +91 9689944805 | F: +91 20 66546915 | E: marketing@shachiengg.comb | W: www.shachiengineering.com 8 | October 2015 | Chemical Products Finder



15th Edition

Chemical | Pharma & Biotech | Oil & Gas | Pumps, Valves Pipe & Fittings | Filtration & Separation

Who’s Who is an ‘Exhaustive Listing and Fact Book on Chemical Process Pharma & Biotech, Oil & Gas, Pumps Valves Pipe & Fittings, Filtration & Separation Don’t miss this unbeatable brand building opportunity. Advertise in the biggest & best of the India’s Process Industry & watch your Company grow. We look forward to your participation in our 15th issue. Thank you for your support. You would like to know that Who’s Who has progressed by leaps & bounds over the last 14th editions. We are now in the process of compiling the 15th edition. Who’s Who is an exhaustive listing & fact book on the process engineering companies in the Chemical, Pharma & Biotech, Pumps Valves Pipes & Fittings, Filtration & Separation . It also carries extensive information on the Oil & gas industries & Industrial Automation. The database covers more than 10,000 participants at our Chemtech events. Who’s Who is an important part of the literature accessed by purchase managers from this industry for their research before procurement. It is also made available to visitors to our stalls at international expositions who evince interest in Indian products. The whole compilation rendered on CD is a big hit with these visitors. The international audience can also access Who’s Who at the libraries of Indian Trade Chambers abroad. Important Segments 2. Pharma Process Equipement / Packaging 4. Plant and Machinery 5. Pumps, Valves, Pipes & Fittings 6. Filtration & Separation 7. Industrial and Process Automation 8. Water and waste management 9. Material Handling & Logistics 10. Engineering, Procurement & Construction 11. Oil & Gas

1. Pharma & Biotech

Registered Office:Registered Office: Taj Building, 3rd Floor, 210, Dr. D N Road, Fort, Mumbai – 400001, INDIA. Tel: +91-22-4037 3636, Fax: +91-22-4037 3635 Email: industrialmags@jasubhai.com





Company profile

ous ty –

Shavo Group

E

stablished in 1960 by their Founder Chairman, H K Shah, as a pioneer in the pneumatic industry, the Shavo Group now comprises of Shavo Technologies Pvt Ltd and Centraline Lubro Tech Engineers. The Shavo Group of companies has a diversified portfolio with a presence in various sectors. From being India’s largest producer of compressed air processing equipment to being pioneers in the field of aerosol lubrication and bringing to India some of the most globally recognised companies in energy absorption, gas management, static elimination, valves, fittings, air moving products and many more. The Shavo Group of companies has come a long way. Shavo Technologies Pvt Ltd India’s biggest names in R&D, petrochemical, pharmaceutical, automotive, semi-conductor, process instrumentation, chemical, aerospace, defence, power, food processing and many other industries trust them for various advanced engineering solutions since the last 50 years. The Shavo Group of Co’s has always been associated with some of the choicest engineering manufacturers in the world.

applications including: petrochemical, semiconductor, energy, food, bio-technology, pharmaceutical, defence, pulp and paper, and mining. Classic Filters deliver some of the most robust, high quality, coalescing filters and particulate filters in the world from a filter element to complete filter system for almost any function. HORIBA – Semi-conductor devices, flat panel displays and now even photo-voltaic or solar cells are involved in an ever increasing part of our lives. To manufacture these hightech devices it is important to have reliable and precise fluid control. HORIBASTEC is the established world leader in full line-up gas, liquid and vapour delivery products. Applied Energy System Inc, USA is one of the world leaders in the field of ultra highpurity gas delivery systems, viz, gas cabinets and panel for the solar, semi-conductor, nanotechnology and other high purity industries. Gast is today a recognized world leader in the design and manufacture of air moving products including vacuum pumps, compressors, air motors, gear motors, vacuum generators and regenerative blowers.

Tescom a leader in the manufacture of highpressure regulators up to 20,000 psig. Tescom products are designed to work with all types of fluids, both corrosive and non-corrosive. Tescom manufactures over 70 standard models of high-pressure regulators to meet almost any requirement.

Meech has specialized in industrial electrostatics for over 4 decades, developing wide range of products such as ionizing bars, hand-held ionizing air curtains, etc, for effective static neutralization and dust removal. The Meech Web Cleaning product range is the result of their in-depth knowledge of the industrial sector, Meech can offer both non-contact and contact web cleaning systems. Their web cleaning product lines include integrated anti-static controls for static elimination and other energy saving features.

Ham-Let offers high quality instrumentation valves and fittings in wide variety of materials for high pressure, temperature and vacuum

Enidine Inc is a leader in energy absorption and vibration isolation products, providing solutions to a wide range of industrial

Originally operating as a division of Shavo Norgren India Pvt Ltd, Shavo Technologies was formed as a separate entity in 1996 representing international companies in variety of sectors, as mentioned below:

markets. ITT Corporates operating on all seven continents in three vital markets: water and fluids management, global defence and security, and motion and flow control. Headquartered in White Plains, NY, USA, the company generated in 2009 revenue of $10,9 billion. Centraline Lubro-Tech Engineers Three decades of pioneering work using Aerosol Lubrication Technology in India (Microfog/Oil fog) was started in the year 1970 by their founder Chairman H K Shah, with the technological expertise of Norgren Inc of USA under their associate company Shavo Norgren (India) Pvt Ltd. As the lubrication business expanded, a separate entity Centraline Lubro-Tech Engineers Pvt Ltd was formed in 1984 to focus and specialize in the field of industrial lubrication. Progressively, further arrangements were made to obtain advanced lubrication equipment and application know-how from Lubriquip Inc, Cleveland, USA, who are world leader in the field of industrial lubrication for more than 100 years. Centraline design, supply and install complete lubrication systems, manual, semi-automatic and ancillary lubrication equipment for industrial plants. Centraline specializes in the supply of conveyor lubrication systems, rolling mill lubrication systems, sugar machinery lubrication and machine tools related lubrication systems, utilizing in house drafting and systems design capabilities and a vast technological resource on lubrication. Their clients include premier Indian companies and MNCs Export orders have been executed to China, Dubai, Bangladesh, Uganda etcCentraline is committed to providing custom solutions for even the most challenging applications. ◘

Shavo Group Shavo House, Survey No: 21-A/10-B, Plot No: 394, South Main Rd, Koregaon Park, Pune, Maharashtra 411 001 T: 020-26159641, 26159642 | F: 91-020-26159644 | E: shavogroup@vsnl.com | W: www.shavogroup.com 16 | October 2015 | Chemical Products Finder



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The economic climate in the country has opened up vast opportunities and the management at Chembond is deriving benefits, befitting to a growing company. Chembond is the leading manufacturer and supplier of Specialty Chemicals to diverse sectors of industry such as automobile, steel mills, fertilizers, refineries and petrochemicals, power plants and infrastructure projects such as metro systems, bridges and expressways. Chembond has prided itself on being the "First Choice" for many 'quality conscious' customers throughout India. With technical service being an important component of our proposition, all our products are backed up by technical service provided by a well trained and experienced team of technical Mr N C Padia Vice President Chembond Chemicals Limited Navi Mumbai 400 710 E-mail: ncpadia@chembond-drew.com

personnel. Mr N C Padia, Vice President, Chembond Chemicals Limited has 37 years of rich experience in industries like Refinery, Petrochemicals, Fertilizer, Power, Steel in water treatment field. shares insights about the company in an exclusive interview with Bernard Rapose. Could you brief us about the overall business activities of your company (tie-ups/JVs, acquisitions, associations, reach, network)? What has your company always been striving for? Chembond Chemicals Limited (BSE: CHEMBOND) is a 40 year old diversified specialty chemicals manufacturing company. Our presence through the various product lines allows us to serve industries across most segments of manufacturing in India. We have a strong presence in the industrial water and waste water treatment sector where we offer chemical, equipment and bio-remediation solutions. We treat cooling water, boiler water, raw water and effluent and reverse osmosis (RO) membranes amongst other applications to enhance the plant performance. These products are used in large and heavy industries like steel, power, refining, fertilizer, paper, chemicals and petrochemicals as well as in the food, pharmaceuticals, beverage, cement, institutional and small industrial

segments. The water treatment chemicals business is undertaken by Chembond Solenis Water Technologies – our Joint Venture with Solenis Inc, USA. Our construction chemicals are used in the building and construction industry with applications in roads and bridges, airports and metro transit, infrastructure building, in industrial, commercial and residential construction and repair and rehab projects. Chembond coatings products are high performance coatings for structural protection against corrosion, for floors and walls in clean rooms and shop floors and for building exteriors. A growth business for Chembond is animal nutrition business, which manufactures and supplies high quality enzymes and other products for the poultry industry. Chembond has believed in delivering to customer expectations through continuous investments in innovation and technical services. We strive to deliver value and delight our customers for the money invested by them. Chemical Products Finder | October 2015 | 19

Interview

“Chembond has prided itself on being the ‘First Choice’ for many customers”


Interview

What is the sole purpose of Chembond Chemicals Ltd acquiring or going in for joint ventures? How does this add to the image and value of Chembond Chemicals? Are we going to see many more such acquisitions/JVs in the near future? We do not start with an objective to form a JV or make acquisitions for image or for the sake of it. We consider the synergies, the vision and values of the partner organization, the shareholder value that can be created through a catalytic partnership through faster growth or faster access or expansion in our product offerings. As a result, Chembond’s JV’s have brought in advanced technologies as a first mover to the benefit of our customers and have set new standards for product performance and service delivery in the country. Of course our business have grown much faster. While Chembond exited a JV with Henkel KGaA in the metal pre-treatment field very recently, it also entered a new business segment in a JV with Calvatis GmbH, a German industrial cleaning and hygiene chemicals solutions provider. Chembond Calvatis Industrial Hygiene Systems Ltd would serve the dairy, beverage, brewing and food processing industries in the region. We are looking out for more acquisition / partnerships which are synergistic to the nature of our business. Which are some of your pioneering products recently introduced in the market or are there any plans to launch new products? Research and Development in Biotechnology has resulted in the streamlining of the manufacturing of several industrial enzymes and probiotics. Similar initiatives in the polymer arena have resulted in the successful development of bio-based polyamides and acrylic emulsions. These activities have resulted in our Company being recognized as an innovative company, a self-sufficient company with a differentiated strategy. In coatings, we introduced a green series of products for Direct to Metal (DTM) application for use in automotive 20 | October 2015 | Chemical Products Finder

and general industrial segments. These products are water-based and contain minimal amounts of co-solvents. Theoretical emissions of these products are less than 0.10 gram per square meter per 1 micron thickness. Therefore, it is the most environmentally sound product in the market. These products do not contain hazardous substances like solvents, lead, and chrome and are compatible with substances like cast iron, alloys, aluminum, plastics and rubber. The product is characterized by fast drying, gloss, easy application that is similar to those of traditional solvent-based enamels. In polymers, we have discovered a unique adhesion promoter for improvement in adhesion properties of plastic surface and also submitted provisional Indian Patent application this year. Chembond actively participated in the Innovation Pavilion at PLASTINDIA 2015. Brief us about the quality policy for your business? We are a performance chemicals manufacturer. Everyone at Chembond is conscious of this fact and knows that superior product quality, timely technical service and customer satisfaction are the backbone of our business. We are committed to absorbing knowledge to incorporate improvements on a continuous basis consistent with global trends. In order to realise our goal of being a “Supplier of Choice” we consider our customers as partners and work towards achieving the common objectives of higher quality, better value for money and a friendlier environment. What is the strategy adopted to improve your company’s position in Indian and global market as well? We do not believe in doing anything “fancy” we would stick to what has been successful for us and what has served our customers well. We would not sacrifice our values to gain business or improve our market position in any of our businesses. We are also more focussed on serving the India market and consolidating our position

here. Acquisitions and partnerships are surely on our agenda. What is your current physical and human resource infrastructure to meet the mission and vision of your company? That is a very pertinent question. We have been thinking and providing for growth several years ahead of the time when the physical and human assets fall short or become an impediment for our growth. Way back in 1997 we decided to shift our office and laboratory from a small setup in Lower Parel to our independent building at Mahape, Navi Mumbai. Chembond Centre houses all our personnel operating from the Mumbai area. Also housed are laboratories for all our product applications and for R&D. This large facility enables our teams to work as one. Similarly we have regional manufacturing footprint with ISO 9001 certified manufacturing plants and laboratories in Tarapur, Maharashtra; Baddi, Himachal Pradesh; Dudhwada, Gujarat; Mahape, Maharashtra and at Ranipet, Tamil Nadu. On the human assets front, we have a continuous recruitment and training and development program, which keeps pace with our business development. What are the current challenges faced by Chembond Chemicals in India and what is the way forward according to you? The Indian economy has passed through a low growth cycle over the last few years. New investments have slowed to a trickle and recent initiatives taken by the government are likely to take another couple of years till they result in enhanced opportunities for Chembond. We have nevertheless continued to make investments in facilities, people, technology and brands because the Indian market has a tremendous scope for the kinds of businesses in which we operate. Our challenge is in maintaining margins at times like these when the industry is still tentative about the recovery from a slowdown. It is also challenging to maintain expenses while people’s aspirations are ever-growing.


Interview

Why did Chembond Chemicals divest 49% shares in Henkel’s Germany? Our company started its operations 40 years ago with metal pre-treatment chemicals. We were pioneers of the business in India and were building up references and experience. Post liberalization in the mid 1990’s several international car manufacturers and appliance companies set up plants here. New product technologies were being used in Europe and the USA. That is when Henkel wanted to enter India and be a part of the market. Chembond was already a significant player then and wanted to be an innovator always. A decision was taken to form a JV that can make use of Chembond’s local experience, sales and distribution, manufacturing and technical support infrastructure while using Henkel’s global experience, newer product technologies and vast pool of international experts to significantly change the growth trajectory from the resultant synergies. This JV was very successful and both partners equally contributed to its success. As is the case with almost all globally operating companies today, the management teams change and are under pressure to deliver superior performances to their stakeholders. The company here

was well structured, independent and had an excellent performance track record with customers and financially too. Henkel expressed a desire to buy the 49% stake from Chembond. Not wanting the successful partnership to get acrimonious and erode value and after great thought we decided to exit the business and spend more time driving the other business that had been continuously added to Chembond’s “portfolio”. How do you intend taking CSR (Corporate Social Responsibility) to the next level of PSR (Personal Social Responsibility)? For 17 years now, the Chembond group along with its joint venture partner Henkel runs a non-formal educational Centre near Tarapur where English, Hindi, Marathi, Science, Mathematics, Social Studies and General Knowledge form the main subjects of curriculum. Group discussions and sessions with the community and parents help children understand issues like their rights and duties for education better. This Centre organizes periodic health check-up by doctors and the children are provided with supplementary nutrition to help them cope with the problem of malnutrition in order to enjoy

them a good health. Children under the project are being trained on vital aspects of personality development like behaviour and etiquette, hygiene, health, values and habits, social concerns. They are also being given training on art, craft, dance and drama through workshops and cultural programs. The Centre also provides financial assistance to weaker sections in order to complete their formal education. A new Centre was started at Shirgoan in November 2012. This is a remote area and most of the families belong to site workers who are paid on daily basis and due to nature of work, the children cannot get opportunity to get proper education. The Centre took an initiative to offer assistance to girls from Balwadi (Junior KG) to 5 th Standard. This Centre too runs a karate class for girls to improve their self-confidence. Visan Rachna Kendra at Piplaj, Gujarat was started in 2010 to impart training in handicrafts to the financially weaker women of the village. The Kendra is where they make products using the handicraft skills. Besides providing a means of livelihood, Rachna Kendra helps identify buyers and the women then fulfill the orders. ◘ Chemical Products Finder | October 2015 | 21


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Chemical Product Finder, India’s premier magazine for Materials & Equipment for Process Industries. The forthcoming issues such as April’15- Lab Equipment & Instrumentation, May’15- Material Handling & Packaging, June’15- Pumps & Valves, July’15- EPC, Aug’15- Filtration & Separation, Sept’15- Environment Mgmt Solutions etc.

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Offer Valid till 20 th December’15 only Please fill up the contact details First Name ......................................................................................................................... Last Name ............................................................................................. Firm Name ......................................................................................................................... Email ...................................................................................................... Mailing Address ................................................................................................................................................................................................................................. ............................................................................................................................................................................................................................................................... City ......................................................................................................................................State ....................................................................................................... Pin Code ............................................................................................................................ Contact Number .................................................................................. Please send your cheque in favour of “ JASUBHAI MEDIA PVT LTD ” payable at Mumbai. Add ` 50/- for outstation cheques. FOR BANK TRANSFER Beneficiary: JASUBHAI MEDIA PVT.LTD Bank: HDFC Bank Ltd Branch: Marine Drive Address: 143, Ground Floor, Soona Mahal, Marine Drive, Mumbai-400021 Bank Account No.: 12122020002057 IFSC Code (NEFT/RTGS): HDFC0001207 Swift Code(Iternational Remittance): HDFCINBB All the above complete field along with cheque should reach us at: Jasubhai Media, Subscription Dept, 3 rd Floor, Taj Building, 210 Dr D N Road, Fort, Mumbai-400001. Tel: 022-4037 3636


Brilliant technology Italian quality Saurus939: Versatile and long life vacuum pump for continuous recovery of the solvents extracted

Criox System: Patented rotary vacuum dryer with electric lump-breakers

Planex System: Multi-patented paddle vacuum dryer with ZeroFriction速 planetary movement eccentric agitator

CosmoDry System: Paddle vacuum dryer with concentric agitator, fitted with a shaft dismountable in sections.

Agent for vacuum pumps

Your vacuum drying specialist marketing@italvacuum.com | italvacuum.com

Vac Enterprises India LLP, Mr. Jayant Joshi B 102 Shubh Sarita, Appasheb Sidhaye Road Shree Krishna Nagar, Borivali (East) Mumbai 400 066 Tel. 02228975275 | Mobile 9820047858 info@electromechengineering.com


Focus

LUTZ DRUM PUMPS Shanbhag & Associates is the sole distributor for the entire range of Lutz products with an all-India sales/ service network. Lutz Pumpen GmbH & Co KG, Germany is the premier manufacturer of electric and pneumatic drum/container pumps in the world. The Lutz concept allows the complete pump (drive motor and pump tube) to be used in different containers and liquids as long as both components are approved for use in the liquids. Lutz drum pumps can handle liquids which are aggressive, flammable, thin, viscous, hot or cold, hazardous to ground water and the environment, and vary with respect to their density. The wide variety of liquids and container types/dimensions necessitates an extensive range of drum pump models. Depending on the requirements, they are available in a variety of materials, equipped with electric/ air motors adapted to the output requirements, for different voltages (AC/DC), explosion-proof for hazardous applications, pneumatically-operated, with the required delivery rate and a suitable sealing system. Added to this are pump tubes in varying lengths and a wide range of accessories permitting adaptation to problematic containers or operating conditions. Pump tubes are available with centrifugal impeller or with eccentric screw principal constructions. Tube materials are in PP/PVDF/Alu/SS-316 (Ti)/Hastalloy-C. Tube drivers are available in electric (Flp/Non-Flp) and pneumatic options. Drum pumps can be offered in sanitary and non-sanitary constructions. Drum pumps have proved to be efficient aids to work in the fluid handling sector; they save time and labour, reliable, more productive, avoid material wastage, reduce the risk of malfunction downtime and improve the level of safety at the workplace. For details contact: Shanbhag & Associates B-50 Nandbhuvan Indl Estate,Mahakali Caves Road, Andheri (E), Mumbai 400 093 Tel: 022-28346604, 28340071, 28218008, Fax: 91-022-28388334 E-mail: info@shanbhags.com or Circle Readers’ Service Card 1

MULTISTAGE VERTICAL IN-LINE HIGH-PRESSURE PUMPS

BARREL PUMPS C Bole & Co offers wide range of barrel pumps - hand operated, motorized, air operated, flameproof in different MoC such as SS-316, polypropylene, MS, aluminium for handling variety of viscous and non-viscous liquids like solvents, alkalies, pesticides, gasoline, fuel oil, inflammable corrosive liquids, varnishes, petroleum products, drugs and pharma, and degreasing agents, glucose, honey, glycerine, shampoo, paints and other highly viscous liquids.

Movitec B; are now available in complete SS materials in addition to the existing version of Cast Iron (VCF). These versions will be known as VF and VSF having SS 304 and SS-316 grades respectively. Movitec pumps are capable of handling variety of applications like RO plants, irrigation systems, pressure boosting, washing plants, chemical applications, HVAC system, etc. Pumps are available in 2, 4, 6, 10, 15 sizes. Higher sizes can also be made available on request. These pumps can generate a flow up to 22 cu metres per hr with the head up to 250 metres. And can handle liquid having temperature between -20 and +140 degree Celsius with a pressure of 25 bar.

Their other products includes hydraulic test pumps - hand operated/motorised for cylinder stretch test, chemical process pumps – SS-316/polypropylene/gear pumps - cast iron/SS316/magnetic pump in SS-316/polypropylene

For details contact:

For details contact:

KSB Pumps Ltd Mumbai-Pune Road, Pune, Maharashtra 411 018 Tel: 020-27101000, 2710 1233, Fax: 91-020-27426000 E-mail: bipin.kode@ksb.com

C Bole & Co 61, Narayan Dhuru Street, Mumbai 400 003 Tel: 022-23424350, 23429641, Fax: 91-022-23424040 E-mail: cboleco@yahoo.com/cboleco@hotmail.com

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24 | October 2015 | Chemical Products Finder

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AND

August 2011 Vol.10 Issue 1

Price `100

www.pharmabioworld.com

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Man Good

www.cbolepumps.com

Guidelines to be followed for .... Guidelines for Submission of Product Write-ups  Maximum word length for the product write-ups is up to 250 words.  Provide company name, address (no Post Box No:), telephone, fax, e-mails, at the time of submission..  High-resolution images in jpeg / gif (300 dpi) should accompany the write-ups.

Guidelines for Sending Articles  Article should be original and application oriented in nature and not promote any product / company  The length of the article should be around 1,500 words  Article must be accompanied by the author / authors details (name, designation, company name, e-mail and author's photo); an introduction for the article in 70-100 words; relevant photos, figures, tables / charts (max of three photos / illustrations) may be added to the article. All photos should be of high resolution (at least 300 dpi) for clarity purpose in our magazine.  One can expect the article (after approval) to be published in our magazine.

Chemical Products Finder Jasubhai Media Pvt Ltd Taj Bldg, 3rd Floor, 210 Dr D N Road, Fort, Mumbai 400 001 Tel: 022-40373636 / 37 E-mail: bernard_rapose@jasubhai.com

22-05-2015 11:32:53


Focus

LUTZ AODD PUMPS Shanbhag & Associates is the sole distributor for the entire range of Lutz products with an all-India sales/service network. The Lutz air-operated double diaphragm (AODD) pumps are a natural complement to the Lutz pump range. The pump size ranges from 1/4” to 3”. Pump housings are available in PP, PVDF, nylon, aluminium and SS, and internals in Teflon, EPDM, nitrile rubber or Viton. The pumps run on dry, non-lubricated clean air. In addition, the company also offer solid-block AODD pumps in complete PTFE as well as in PE housings – both housing options in conductive or non-conductive construction. Lutz double diaphragm pumps are in bolted construction and are designed for a variety of industrial applications. They are self-priming and can carry solid particles/slurries without any damage. Lutz AODD pumps are absolutely lube-free; non-stalling in operation; weight reduction, air valve body available in corrosion-free engineered plastics; and similarity of spares across models and sizes. It finds application in pharma, glass and fiberglass, oil and gas, marine/shipbuilding, metal and steel, effluent treatment, paint, aircraft, electroplating/surface treatment, food and beverage, automotive, chemical, clay and ceramics, etc. For details contact: Shanbhag & Associates B-50 Nandbhuvan Indl Estate, Mahakali Caves Road, Andheri (E), Mumbai 400 093 Tel: 022-28346604, 28340071, 28218008, Fax: 91-022-28388334 E-mail: info@shanbhags.com or Circle Readers’ Service Card 4

CANNED MOTOR PUMP Kirloskar Brothers Ltd (KBL) offers small Series of canned motor pumps (i-CM Series), which offer many advantages to the process industries. To address the increasing demand for environmental safety at a reasonable cost, a unique challenge of the process industries is to develop and utilize equipment that handle toxic, explosive, expensive, hazardous, carcinogenic and corrosive fluids without any possibility of emissions into the environment and while operating it should be eco-friendly, leak-proof with efficient and reliable performance. Canned motor pumps, designed and manufactured by KBL, meet and exceed these challenges. Refrigerant transfer is one of the important and critical applications in the process industries, where canned motor pump is used to handle liquid refrigerant (mainly ammonia). Ammonia is natural, most efficient and cost-effective industrial refrigerant as it does not destroy atmospheric ozone and does not contribute to the greenhouse effect linked to global warming. Circulating refrigerant enters the compressor and is compressed to a higher pressure resulting in a higher temperature as well. The hot compressed vapour is then routed through a condenser where it is cooled and condensed into a liquid. This liquid refrigerant then passes through an expansion valve where it undergoes an abrupt reduction in pressure. That pressure reduction results in auto-refrigeration effect of the adiabatic flash evaporation lowers the temperature of the liquid and then it is routed through the coil or tubes in the evaporator. A fan circulates the warm air in the endosed space across the coil or tubes, which evaporates the liquid part of the cold refrigerant mixture. At the same time, the circulating air is cooled and thus lowers the temperature of the endosed space to the desired temperature. Major application areas of canned pump in refrigeration include meat processing, agriculture produce, fishery industries, ice making plant, etc. For details contact: Kirloskar Brothers Ltd Global Headquarters, Yamuna, Survey No: 98/(3-7), Baner, Pune, Maharashtra 411 045 Tel: 020-27214444 or Circle Readers’ Service Card 5

26 | October 2015 | Chemical Products Finder


Welded tubes making operation are carried out on the tube mill. Cold/hot stainless steel strips are slitted to the required width as per the diameter of tube to be formed. The strips are then fed to the uncoilar from where it passes through series of rollers and continuously formed into a tubular shape and welded by tungsten inert gas (TIG) welding. It is highly precision complete automated process where the edge of script are treated and fused together under protect in atmosphere of argon gas through a non-consumable electrode without using any filler metal. The tubes also pass through a series of sizes rolls to ensure quality, tolerance and then are cut to length. It is then annealed, straightened, hydro-tested, pickled and passivated. The tubes then undergo a 100 per cent visual and dimensional inspection. Then the tubes are marked and suitably packed before dispatch. For details contact: MBM Tubes Pvt Ltd Maruti Mandir Marg, 5 th Kumbharwada Lane, Mumbai 400 004 Tel: 022-66381354, 66381355, Fax: 91-022-66595047 E-mail: mbmtubes@gmail.com or Circle Readers’ Service Card 6

AODD PUMP Wilden offers new Stallion Original Metal AODD Pump models powered by the energy-efficient Pro-Flo SHIFT Air Distribution System (ADS). Wilden Stallion Series pumps incorporate many unique design features that make the handling and transfer of fluids with high solid content more efficient and effective. Chief among these are a shock-absorbing polyurethane screen base that absorbs the impact from constant assault by solid particles, resulting in maximized durability. The pumps also feature a large internal clearance and flow-through design to keep the pump from clogging; an integrated suction strainer; and an altered ball/seat check valve assembly that maximizes part life. Stallion Series pumps are ideal for rugged utilitarian applications that require a robust design. Stallion Series pumps also come equipped with the innovative Wilden Pro-Flo SHIFT ADS. The Pro-Flo SHIFT incorporates a unique Air Control Spool that automatically restricts the amount of air going into the pump during the latter part of each stroke, which eliminates over-filling of the air chamber and results in reduced air consumption. Its robust design makes the Pro-Flo SHIFT ideal for use in harsh operating environments and includes ATEX compliance for use in potentially explosive atmospheres. The new Stallion Series pumps are available in three sizes: PS4, 38 mm (1-1/2”); PS8, 51 mm (2”) and PS15, 76 mm (3”) in either aluminum or ductile iron materials of construction, are submersible, self-priming, shear-sensitive, offer increased On/Off reliability, can run dry, have superior antifreezing properties and can handle pressures up to 125 psi. Depending on the model, flow rates range from 307 to 764 lpm (81 to 202 gpm). For details contact: Dover India Pvt Ltd – PSG 40 Poonamallee By-pass, Senneerkuppam,Chennai 600 056 Tel: 044-26271020, 25271023 E-mail: sales.psgindia@psgdover.com or Circle Readers’ Service Card 7

Chemical Products Finder | October 2015 | 27

Focus

WELDED PIPES & TUBES


Focus

OMAC INDUSTRIAL & SANITARY LOBE PUMPS Shanbhag & Associates is the distributor for the entire range of rotary lobe pumps from OMAC Pompe, Italy with all-India sales/service network. OMAC Pompe is a leading company in Italy for the manufacture of positive displacement rotary lobe pumps in SS for different kinds of products/applications but mainly oriented to the food, beverages, pharma and chemical industries. B, BB, BA, BF & C Series pumps retain the principle of performance, solidity and reliability, and incorporate a new design which enables easier cleaning of the wetted parts. BB Series pumps are designed in accordance to 3A sanitary standards. BA Series pumps are designed with surface finish and elastomer and are either 3A or FDA approved. It is delivered with 3A name-plate and Certificate. To be able to offer the OMAC lobe pump the company requires to know the product viscosity at pumping temp, specific gravity, temp of pumping, flow rate, discharge pressure at the pump outlet. In case of solid content the company can offer with flushed mechanical seals. OMAC can offer lobes in bi-lobe, tri-lobe, dual wing, rubber-coated constructions as per the applications. 16 different pump models offer flows up to 10.5 lt/rev and pressures to 20 bar. Heating jackets, integral pressure relief valves, flushed mechanical seals, double mechanical seals, soft packing are few of the many options which can be offered. End-connections can be flanged, triclover, SMS, IDF as required. ATEX Certification can be offered if required. OMAC can offer pumps in horizonal or verttical arrangements; thus if required. The suction inlet can be positioned directly below reactor/tank outlet allowing for faster and cleaner passage of viscous or slurry materials. As a policy to safeguard customer interests OMAC always offers a lower-speed pump with higher frame model so that the life-cost of the pump is lower. As the pump is run at lower speeds, efficiency is higher, power consumption is lower, cavitation is reduced and wear and tear on the pump parts is minimized. For details contact: Shanbhag & Associates B-50 Nandbhuvan Indl Estate, Mahakali Caves Road, Andheri (E), Mumbai 400 093 Tel: 022-28346604, 28340071, 28218008, Fax: 91-022-28388334 E-mail: info@shanbhags.com or Circle Readers’ Service Card 8

OIL-LUBRICATED VACUUM PUMPS Toshniwal’s oil-lubricated vacuum pumps of the TMS Series are single stage oil-lubircated rotary vane vacuum pumps with oil re-circulation system. Pumping capacity ranges from 15, 35, 65 and 100 m 3 /hr. Designed for continuous operation at high intake pressure the pump is used in various applications like pick and place, packaging, degassing, low boil distillation, solvent recovery, heat treatment, bottle filling, vacuum drying, etc. Toshniwal also provide special B Series oil lubricated pump for high-pressure (rough vacuum) application upon request. For details contact: Toshniwal Instruments (Madras) Pvt Ltd 267 Kilpauk Garden Road, Chennai 600 010 Tel: 044-26448983, 26448558 Fax: 91-044-26441820 E-mail: sales@toshniwal.net or Circle Readers’ Service Card 9

28 | October 2015 | Chemical Products Finder


Cole-Parmer offers the latest fully-featured GLP compliant pH 450 meter and CON 450 conductivity meter from Oakton. The meters provide automatic and manual temperature compensation to ensure accuracy even with fluctuating temperatures. Get more data at a glance—view measurements with temperature and calibration data with % slope or cell constant on a large, backlit display. Select Celsius or Fahrenheit settings to best fit your application. Up to 500 data sets can be stored and easily downloaded with USB or RS-232 cable. A calibration alarm alerts users when it is time to calibrate. The Oakton pH 450 meter also features six-point calibration—choose USA, NIST, DIN or custom buffers. Convenient auto buffer recognition automatically identifies the correct pH meter buffer for rapid calibration. The Oakton CON 450 meter offers auto-range conductivity from 0 to 199.9 mS in five ranges with automatic calibration up to five calibration points. Selectable temperature co-efficient is adjustable from 0 to 10% per °C for accurate compensation of almost any solution. For details contact: Cole-Parmer India Pvt Ltd A-403 Delphi, Hiranandani Business Park, Powai, Mumbai 400 076 Tel: 022-61394444, 61394410 E-mail: vinita.singh@coleparmer.in / response@coleparmer.in or Circle Readers’ Service Card 10

INLINE CONCENTRATOR Pall’s single-pass tangential flow filtration (SPTFF) is a technology that uses a staged flow-path design for continuous concentration with one-pump pass. SPTFF technology minimizes shear exposure and enhances product quality. Optimized flow path and design greatly reduce the system working and holdup volumes compared with conventional TFF, resulting in improved product recovery. The new Cadence Inline Concentrator (ILC) module is a holderless SPTFF device that can be used in a process system or as a stand-alone unit to achieve typical concentration factors of 2 to 4X. The Cadence ILC module requires only a feed pressure source and a feed pressure sensor for operation. The Deltaregenerated cellulose membrane in the Cadence ILC provides high-flux, high-selectivity and low-protein binding.

RESOLUTE CHROMATOGRAPHY COLUMNS With their unique nozzle valve for packing, unpacking, running and CIP of chromatography columns in a closed system, Pall’s Resolute Chromatography Columns provide reproducible column packing methods for today’s highperformance biopharmaceutical chromatographic media. The slurry packing system, combined with a resolute column, offers a complete solution for process chromatography from the development to manufacturing scale.

This easy-to-use device can be implemented in biotech DSP processes for continuous processing or for in-process volume reduction (ie, before and/or in between chromatography steps) for potentially savings in time, buffer usage and resin cost.

Resolute Chromatography Columns come in standard column diameters from 280 to 1,200 nm with selectable bed heights from 100 to 600 mm and a choice of polyethylene or stainless steel supports. In addition, they are compatible with a wide range of chromatographic media, and the wetted flow path provides a low-pressure drop and high-resolution chromatography over a wide range of normal operating flow rates.

For details contact:

For details contact:

Pall Life Sciences C/o Impress Labs, 20 Walkup Drive, Westborough, MA 01581, U.S.A. E-mail: beth@impresslabs.com

Pall Life Sciences C/o Impress Labs, 20 Walkup Drive Westborough, MA 01581, U.S.A. E-mail: beth@impresslabs.com

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Chemical Products Finder | October 2015 | 29

Focus

WATERPROOF PH 450 AND CON 450 METERS


Focus

POCKET PH TESTER HI 98100 CHECKER PLUS Hanna Instruments offers the new pocket pH tester HI 98100 checker plus. It is the next generation of the original Hanna Checker pH tester. The checker has been helping people with their pH measurement as a meter that is simple to use and operate. This meter is easy to operate; it has features like single button operation, replicable pH electrode, etc. The HI98100 Checker Plus pH tester has been designed with many advanced features while maintaining the look and feel of the original Checker. The Checker Plus now offers automatic calibration to one or two points, automatic buffer recognition, calibrated buffer tags, stability indicator, low battery indicator and selectable automatic shut-off. The Checker plus still maintains the iconic pentagon design with a probe that measures 103-mm in length and tapered to a 8-mm dia making it ideal for test tubes and vials. It has a large LCD that displays reading, stability indicator, low battery indicator and calibration tags. The HI1271 supplied gel filled pH electrode is 103 mm long and tapers to an 8 mm dia at the sensing end. This narrow electrode easily fits into test tubes, vials and other containers with small opening. For details contact: Hanna Equipments (India) Pvt Ltd 3/4/5/6 Aum Sai Bldg, Plot No: 23-C, Sector 7,Kharghar, Navi Mumbai 410 210 Tel: 022-27746554, Fax. 91-022-27746557 E-mail: kondiba.metkari@hanna-india.com or Circle Readers’ Service Card 13

ONLINE MEASUREMENT OF SULPHURIC ACID CONCENTRATION Due to the physical properties of sulphuric acid, the most suitable measuring method for determining the acid strength is sonic velocity measurement. The LiquiSonic analyzers of SensoTech are successfully used to determine the sulphuric acid strength in plants worldwide. The modern and high-end sensor technology provides stable measuring results updated every second with an accuracy of up to 0.03 wt%. Corrosionresistant materials and the robust construction ensure a maintenance-free sensor operation with long-term stability. The sensors are installed directly into pipes or vessels and measure inline. The data is sent online and in real time to process control systems via 4-20 mA signal, digital outputs, fieldbus or Ethernet. For details contact: SensoTech GmbH Steinfeldstr 1, D-39179 Magdeburg-Barleben, Germany E-mail: info@sensotech.com or Circle Readers’ Service Card 14

POOL TEST APPLICATION INSTRUMENT The PTWS 4000 is a specialised 40-litre dissolution tester version that enables the user to perform either pooled tests or test for dosage forms that contain high concentrations of active material. The instrument is supplied with six stirred 4-litre and two unstirred 1-litre vessels. The instrument control is the same as for all other PTWS instruments described above but the framework is substantially different. Two lift pillars are used to move the upper head housing. Staggered and synchronous stirrer start is possible. The system comes in a SS design, which is one of the highlights of this instrument. For details contact: Pharma Test Instruments India Pvt Ltd No: 2, Sree Datri Niwas, 2 nd Floor, Nagwara Circle, Outer Ring Road Opp: Manyata Softech Park, Bengaluru, Karnataka 560 045 E-mail: c.neelam@pharma-test.de or Circle Readers’ Service Card 15

30 | October 2015 | Chemical Products Finder


CHEMICAL PROCESSING EQUIPMENT Tech Pro Engg Services offers chemical plant machinery used in food and chemical industry. These machines are manufactured using quality tested component, which are taken from reliable vendors of the market.

The Scientific Apparatus Co offers chemical processing plant and are into turnkey project. The company sets up all automatic and semiautomatic chemical processing plant project work. For details contact:

For details contact:

The Scientific Apparatus Co 40-A Chaulpathy Road, PO Beleghata, Kolkata 700 010 Tel: 033-23707036 E-mail: sacoindia2010@gmail.com / saco_india@yahoo.co.in

Tech Pro Engg Services 67/10 Reva Bhai Indl Estate Opp: Yamuna Indl Estate Part 2, CTM Amrawadi, Ahmedabad, Gujarat 380 026

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Focus

CHEMICAL PROCESSING MACHINERY

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CHEMICAL PLANT

DUPLEX VACUUM PLODDER

Try Scientific Glass Works offers superior quality chemical plant keeping track of the set industrial standards using advanced machinery, updated tools and premium quality components. Moreover, post manufacturing process goes through a series of quality tests under the strict vigilance of their quality inspectors. The offered plant is highly applicable for processing of chemicals.

A duplex vacuum plodder is a soapmaking machine that is used to extrude the final soap. The machine consists of two separate stages in which the first stage is a refiner and the second stage is an extruder and is generally used for stamping purposes. Important equipment in the entire soap unit, plodder machines play a crucial role in giving final shape to a soap bar.

For details contact:

For details contact:

Try Scientific Glass Works No: 474/28, Street No: 8, Jyoti Park Gurgaon, Haryana 122 001

A M Enterprises UGF-20 Devika Chamber, Raj Nagar, RDC Ghaziabad, Uttar Pradesh 201 001

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DUPLEX VACUUM PLODDER The modern Toilet Soap manufacturing facilities uses a duplex vacuum plodder for final refining, compacting and air free extrusion of a continuous bar. Duplex vacuum plodder consists of two plodders mounted in tandem and connected by a vacuum chamber. Their preliminary stage serves for the final refining of the product through refining screens of various mesh and forces the soap mass through a perforated disc transforming the mass into noodles in any length and thickness. The noodles fall into the vacuum chamber, where they are taken up by the main extrusion worm, again compressed continuously and then extruded in the form of bar. Worm cylinder is equipped with cooling jackets.The vacuum chamber is heated to prevent condensation and vacuum pump is used to generate vacuum in the vacuum chamber. End of the conical head is heated electrically under the control of a temperature regulator to get glossy surface on the soap bar. For details contact: Sritech Lipid Process Technologies Pvt Ltd Plot No: 441, Vivekananda Nagar, Kukatpally, Hyderabad, Telangana 500 072 Tel: 040-23161072, Fax: 91-040-23161072 or Circle Readers’ Service Card 20

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Focus

WFI UNIT REDUCES ENERGY CONSUMPTION In all pharma and biopharma manufacturing operations, product quality and patient safety come first. This is also true for high purity media, such as WFI. Bosch offers a new unit, which uses a patented vacuum membrane distillation technology. This highly efficient thermal process combines both distillation and membrane filtration in one modular concept. Due to the especially effective membrane distillation, the unit can prepare WFI immediately from potable water without intermediate steps. Compared to conventional distillation units, the relatively low temperatures of 50 to 80 oC achieve high energy savings while ensuring effective protection against germs and contamination. In a first step, ordinary potable water is evaporated, before it is pressed through a plastic membrane for filtration and then condensed. The membrane system with holds suspended solids, dissolved organic material and bacteria. Online measurements of TOC (total organic carbon), pressure, temperature and conductivity monitor the process continuously. To ensure pharma water quality regarding microbiological purity, the unit can be additionally sanitized at 85 oC. For details contact: Pharmatec GmbH (A Bosch Packaging Technology Co) Elisabeth-Boer-Str 3, D-01099 Dresden, Germany Tel: +4935128278-833, Fax: +4935128278-825 E-mail: klaus.schreiber@bosch.com or Circle Readers’ Service Card 21

PRESSURE NUTSCHE FILTER Sharplex offers pressure Nutsche filters with hydraulically-operated filter plate for opening and closing of filter. The batch is fed to the vessel and pressurised with nitrogen or air. Filtrate is collected in a separate drum through a bottom nozzle. Washing of cake also can be done through top nozzle. After filtration, washing and drying, the bottom filter plate is opened hydraulically and cake is discharged in a drum without manual intervention. The GMP Models with MoC in SS-304, SS-316L, SS-316 Ti or any other exotic materials are available. For details contact: Sharplex Filters (India) Pvt Ltd R-664, TTC Indl Area, MIDC, Rabale, Navi Mumbai 400 701 Tel: 022-27696322, 27696331, Fax: 91-022-27696325 E-mail: sharplex@vsnl.com or Circle Readers’ Service Card 22

AGITATED NUTSCH FILTER/DRYER Offers agitated Nutsch filter/dryer for various multiple processes like solid liquid separation, agitating/washing, and resuspending/mixing. Extraction, crystallizing, drying can be performed within a closed system in single unit an advantage. It is ideal for hazardous/toxic material. All dryer internals, product process area is in SS-316/ SS-316L construction, mirror polished. Heated Limpet coiled/jacket in combination with vacuum atmosphere ensures complete vaporisation of moisture and drying of product. It has PLC-based automation of process batch control, with printable option. Full validation services available including DQ, IQ/QQ, FAT/SAT protocols. cGMP constuction for pharma models. Capacity ranges from 50 litres to 10,000 litres. For details contact: Shiv Shakti Process Equipment Pvt Ltd 407 Shivam Chambers, Next to Sahara, S V Road, Goregaon (W), Mumbai 400 104 Tel: 022-26788480, 26798554, Fax: 91-022-26798284 E-mail: sales@shivshaktiequipments.com / sspepl@gmail.com or Circle Readers’ Service Card 23

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RPS Endurance inverters with new parallel operation feature now available for the Indian market.

Focus

RPS ENDURANCE INVERTERS Bonfiglioli’s RPS Endurance inverters are now ready to tango: With the introduction of the new tandem feature, up to 4 units operate seamlessly in parallel on a single medium-voltage transformer winding. This makes the performance and ease of handling of RPS Endurance inverters now fully available for megawatt-scale PV stations. Thanks to the further extended power range of single RPS Endurance units of up to 563 kWac at 50°C ambient temperature, the new features allows the effortless realization of 2 MW+ tandem configurations with a common ac connection, paired with the best-in-class 15% permanent overload capacity (up to 648 kWac) at reduced ambient temperatures. The innovative two-zone ambient protection system distinguishes the RPS Endurance from other solutions and makes it a preferred choice for harsh plant environment of India Projects. The intelligent encapsulation design maximizes uptime through a certified full IP54 ambient protection degree of active components. Thanks to advanced air cooling technology, the inverter design ensures outstanding reliability and serviceability. With numerous selfprotection functions and grid management options, the RPS Endurance is built to satisfy even the most demanding power control requirements in the fast developing global PV market. Bonfiglioli´s high-level competence is proven by an installed power of over 2.5 Gigawatts in the segment of medium-size and large Grid Connected PV-plants. As a supplier of a couple of the world´s largest PV-plants, Bonfiglioli is trusted by many companies every single day. RPS Endurance is a robust, compact powerhouse with a rated power of up to 563 kWac for each inverter unit with capability of operating up to 4 inverters in parallel connected to single LT side winding of MV Transformer For details contact: Bonfiglioli Vectron GmbH Europark Fichtenhain B6, 47807 Krefeld Tel: +49(0)2151/8396-0, Fax: +49(0)2151/8396-999 E-mail: info@vectron.com or Circle Readers’ Service Card 24

IR NON-CONTACT PORTABLE THERMOMETER IR thermometers allow users to measure temperature in applications where conventional sensors cannot be employed, specifically in cases dealing with moving objects where noncontact measurements are required because of contamination or hazardous reason where distance are too great or where temperature to be measured are too high for thermocouples or other contact sensors. R S Electronics offer low-cost IR non-contact portable thermometer with adjustable emissivity in low temperature range that can be measured from 50 to 550oC. This can be used in food industries, packaging, plastic mould, automobile sector, forging, textile and pharma industries, furnace, etc. For details contact:: R S Electronics 15/1A2, Plot No: III, Lakshmi Nagar, Ramamoorthy Street Moondramkattalai, Chennai 600 128 E-mail: rselectronics75@ymail.com or Circle Readers’ Service Card 25

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Focus

REMOTE SERVICE PORTAL With the Remote Service Portal, Bosch Packaging Services has developed a connected industry solution especially for the packaging and processing industry. It provides as a fed at a connection between customer machines and Bosch experts to support customers fast and efficiently all over the world. The remote access is for instance suited for machine set-up, the preparation of field service visits, remote diagnostics, trouble-shooting in case of machinery downtime, or software updates. The portal features a protected VPN connection and a certificate-based encryption. Only authorized Bosch service staff has access to the connection–and only when customers activate it. This ensures that customers have the sovereignty over the connection and their machine data at all times. Via the remote data connection, the Bosch experts can access different machinery control components to receive an overall picture. If required, the remote service allows adapting settings and parameters by accessing the HMI or machine controls. The remote service is also suited for document at ion purposes, such as restoring settings and data after a modernization, and in future for predictive maintenance. For details contact: Bosch Packaging Services AG Industriestrasse 8, CH-8222 Beringen, Switzerland Tel: +4158674-6147, Fax: +4158674-5167 E-mail: Katja.Bartsch@bosch.com or Circle Readers’ Service Card 26

HIGH-PERFORMANCE DOORS

LIQUID CO2 STORAGE TANKS

High-speed doors designed and manufactured by Gandhi Automations are sturdy, dependable and are the ideal solution for medium and large entrances. The doors are manufactured with European collaboration and technology with innovative and creative engineering. Fast moving functional and reliable doors are needed in industrial and commercial contexts. Gandhi’s high-speed doors are versatile and solid ensuring long-lasting reliability. The modular structure of the curtains, assembled and joined by anodized aluminium extrusions, provides for a wide range of polyester sections available in a variety of colours. Wide, fullwidth window panels ensure a safer traffic and allow more light in. Their fast and easy replacement, in case of accidental tearing, saves money and time. The alternating metal tubular structure inserted ensures high wind-resistance. Prime highspeed doors are the ideal solution for internal and external entrances for medium and large entrances and effectively operate in any situation, even when strong winds are blowing, in rooms with high volume traffic.

Mellcon offers skidmounted pre-engineered tankage for liquid storage tanks CO 2 with storage capacity ranging from 3,000 kg to 50,000 kg of liquid CO 2 duly approved by Chief Controller of Explosives as per SMPV Rules.

For details contact: Gandhi Automations Pvt Ltd Chawda Commercial Centre, 2 nd Floor Link Road, Malad (W), Mumbai 400 064 Tel: 022-66720200, 66720300, Fax: 91-022-66720201 Email: sales@geapl.co.in or Circle Readers’ Service Card 27

These are designed as per the recommendations in ASME Sec-Vlll DlV-1 codes and the MoC are SA-516/SS-304 or as per the specific requirement of the customer meeting all requirements. The vessel can be horizontally and vertically mounted with 175 mm thick insulation and aluminum cladding. Mellcon also offers these tanks under any third party inspection according to customers’ specific requirement. These storage tanks are equipped with all standard instruments and controls. For details contact: Mellcon Engineers Pvt Ltd B-297 Okhla Indl Area, Phase 1, New Delhi 110 020 Tel: 011-26811727, 26816103, Fax: 91-011-26816573 E-mail: mellcon@Mellcon.Com or Circle Readers’ Service Card 28

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Honeywell offers new Solstice Refrigerants with lower global warming potential (GWP) products for applications ranging from supermarket refrigeration to industrial cooling. The new products expand Honeywell’s Solstice line of hydrofluoro-olefin (HFO) refrigerants, blowing agents, aerosol propellants and solvents. Solstice products offer lower global warming potentials with similar or better cooling performance and they help customers comply with F-gas Regulation, Ecodesign and other European environmental regulations. Honeywell’s offerings include Solstice zd (R-1233zd) a non-flammable HFO refrigerant with a GWP equal to 1, for use in low pressure centrifugal chillers, which are most often used to cool large buildings; Solstice ze (R-1234ze) an HFO refrigerant that can be used in equipment that traditionally used R-134a (ie, chillers, heat pumps, appliances and refrigeration equipment); Solstice N13 (R-450A) an HFO blend for chillers, medium-temperature applications is designed to replace R-134a; and Solstice N40 (R-448A) an HFO blend for low- and medium-temperature refrigeration equipment is designed to replace HCFC R-22 and HFC R-404A, both for new and retrofit. Honeywell’s Fluorine Products business manufactures non-ozone-depleting Genetron refrigerants used by top air-conditioning, automotive and refrigeration equipment manufacturers worldwide, blowing agents for energy-efficient rigid foam insulation, and hydrofluoric acid and precursors for nuclear fuel.

Focus

NEW SOLSTICE REFRIGERANTS

For details contact: Honeywell India Technology Center Pace City II, Sector 36, Gurgaon, Haryana E-mail: fluorines.europe@honeywell.com or Circle Readers’ Service Card 29

ADSORPTION CHILLERS Bry-Air (Asia), offers adsorption chiller in the range of 35 to 1,180 kW under license from Power Partners, Inc, USA. The Bry-Air adsorption chiller provides energy smart cooling using waste heat. It is a first ever product being launched in India to tap the abundant low grade waste heat available in process industries and use it for process cooling or air-conditioning (HVAC). A lot of low grade process heat (50°C – 100°C) generally goes waste, which now can be used for cooling. This ecofriendly solution also cuts down CO 2 emission and reduces energy expenses. It is ideal for process industries like power plants, food and beverages, chemical manufacturer, etc. For details contact: Bry-Air (Asia) Pvt Ltd 21C, Sector-18, Gurgaon 122 015 Tel: 0124-4091111, Fax: 91-0124-4091100 E-mail: sdutta@pahwa.com or Circle Readers’ Service Card 30

TRANSFER FINNED TYPE HEAT EXCHANGERS The Swam transfer fin type heat exchangers are available in various sizes and parameters. The details of which would be given on request. Fin type heat exchangers are an ideal solution where low density, low heat transfer fluids are exchanged with high heat capacity streams. For details contact: Swam Pneumatics Pvt Ltd C-2, Sector 3, Gautam Budh Nagar, Noida, UP 201 301 Tel: 0120-4696222, Fax: 91-0120-2443283 E-mail: sales@swamatics.com / swamatic@airtelmail.in or Circle Readers’ Service Card 31

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Focus

WATER-COOLED REFRIGERATED AIR DRYERS Ingersoll Rand offers new range of water-cooled refrigerated air dryers in 1,000-2,500 cfm range with best in class energy efficiency and unmatched reliability. These dryers will cater to industries like textile, automotive, cement, manufacturing, oil and gas, pharma and glass. This new offering of refrigerated dryers from Ingersoll Rand offer multiple design features to ensure a constant dew point at all load levels and will deliver a continuous dry air that satisfies ISO 8573.1 Class-4 air quality standards. These units have phenomenal lower pressure drop and the new innovative heat exchanger design has allowed setting new benchmark in terms of power consumption. Zero air loss level controlled condensate drain prevents energy loss and pressure regulated water valve helps to manage load fluctuations more effectively. The control panel comes with advanced features for safety and connectivity, and refrigeration scroll provides better protection at extreme conditions for enhanced reliability. For details contact: Ingersoll-Rand (India) Ltd Plot No: 35, KIADB Indl Area, Bidadi, Bengaluru, Karnataka 562 109 E-mail: Contact-India@irco.com or Circle Readers’ Service Card 32

HEAT OF COMPRESSION TYPE DRYER Mellcon offers heat of compression type air dryers, which is a breakthrough in drying technology. While compressing, a lot of energy is converted into heat, which is stored in the compressed air and is normally wasted in water cooled after cooler. In heat of compression dryer this energy is used to regenerate the desiccant, thus eliminating the need of heaters required in case of conventional air drying systems, eg, split-flow no-purge-loss type and blower heat reactivated type air drying plants. Energy consumptionwise the system is even better than refrigerated type air dryers while the dew point is much better than that of refrigerated type air drying plants. For details contact: Mellcon Engineers Pvt Ltd B-297 Okhla Indl Area, Phase 1, New Delhi 110 020 Tel: 011-26811727, 26816103, Fax: 91-011-26816573 E-mail: mellcon@mellcon.com or Circle Readers’ Service Card 33

PRODUCTION SPRAY DRYER Hemraj Enterprises offers production spray dryer. Both exhaust and supply blowers are provided so the drying chamber is maintained under a slight vacuum hence minimizing powder loss. A cleaning door is provided on the main chamber for ease of cleaning. The spray dried powder samples produced will be very much representative as of any industrial size spray dryer and hence the plant can also be used for producing small batches for sampling or for scale up. Optional programmable logic control (PLC) system can also be provided. Optionally available in flame-proof construction for evaporating solvents instead of water using nitrogen. Spray drying can be used in wide range of applications where the production of a free flowing powder sample is required. For details contact: Hemraj Enterprises 2/227 New Sonal Link Indl Estate, Link Road, Malad (W), Mumbai 400 064 Tel: 022-66995104, 28898942 E-mail: sales@hemrajindia.com or Circle Readers’ Service Card 34

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Koch Membrane Systems (KMS) PULSION MBR is energy efficient, requires a smaller system footprint and reduces long-term operational costs. It pulses a large bubble through a chambered fiber bundle creating a highly efficient pumping action resulting in lower air and aeration energy requirements than traditional air scour methods. Improved recirculation of mixed liquor within the membrane module, not only results in lowered air requirements, but also boosts achievable fluxes. Coupling greater productivity with an increase in packing density allows the overall system footprint to be significantly reduced. Operating with a continuous supply of air eliminates the need for air cycle valves. A reduced airflow rate applied to the membranes on a continuous basis instead of high air flows applied cyclically reduces the size of the air delivery equipment by 50 per cent.

Focus

NEXT GENERATION PURON MBR

For details contact: Koch Membrane Systems, Inc 850 Main Street, Wilmington, Massachusetts 01887-3388, U.S.A. Tel: +1-978-694-7000, Fax: +1-978-657-5208 E-mail: Anthony.Lauletta@kochmembrane.com or Circle Readers’ Service Card 35

WATER TREATMENT SYSTEM Water Treatment Plant for the production of drinking water is dealt with elsewhere. Many industries have a need to treat water to obtain very high quality water for demanding purposes. Water treatment produces organic and mineral sludges from filtration and sedimentation. Ion exchange using natural or synthetic resins removes calcium, magnesium and carbonate ions from water, replacing them with hydrogen and hydroxyl ions. Regeneration of ion exchange columns with strong acids and alkalis produces a wastewater rich in hardness ions which are readily precipitated out, especially when in mixture with other waste water. For details contact: Micro Water Solutions 1798 Kotla Mubarakpur, South Extn. Part-1, New Delhi 110 003 Tel: 011-41306266 or Circle Readers’ Service Card 36

COKE OVEN WASTE WATER TREATMENT During the process making coal to coke, water is used in different way. The waste water discharged from these plants are highly contaminated with toxic substances like cyanide (CN), thiocyanate (SCN), ammoniacal nitrogen, phenol, tar and other organic compounds. Removal of this toxic and inhibitory substance is always a challenge in steel industry. Much treatment method in the past has not been able to perform satisfactory to this effluent. Their unconventional approach towards the coke oven waste water treatment is not only able to treat the waste water but the treated water can be reused or discharged without any environmental problems. For details contact: Deknomet Systems Pvt Ltd 4 & 5, Garden View, Plot No: 66, Sector 19, Airoli Navi Mumbai 400 708 or Circle Readers’ Service Card 37

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General Products

RUGGED HMIs The innovative ET-208 HMI comes with a number of serial interfaces including USB and connectors for different bus systems as well as Industrial Ethernet. Simatic S7-300, -400 and -1200 connector modules allow data transfer using PROFINET, PROFIBUS or MPI protocols. Barcode scanners and RFID readers can be connected via a reader box. It withstands ambient temp ranging from -40°C to +65°C and is highly vibration-resistant, which makes it suitable for applications in harsh environments, such as on drilling rigs or in close proximity to compressors, mixers or centrifuges. The device boasts a seawater-resistant, IP66-rated metal enclosure.The easy-to-use widescreen operator interface features a resolution of 800 x 480 pixels and with its powerful Cortex A8 processor is as user-friendly as a smartphone. If required, the unit is also available with an additional matrix of up to 4 x 8 keys. The default HMI comes with pre-installed Windows Embedded Compact 7; upon request, an opensource operating system can be installed to integrate customer-specific software. The ET-208 can be configured with the SPSPlusWIN project engineering software, a very popular tool in machine engineering that allows comfortable configuration of parameters such as display, process control or notification settings. Reverse compatibility with the monochrome FALCON Series product line ensures an easy changeover to this new line of HMIs offered by R STAHL HMI Systems. For details contact: R STAHL Pvt Ltd Plot No: 5, Malrosapuram Main Road, Sengundram Indl Area, Singaperumal Koil Kanchipuram District, Tamil Nadu 603 204 Tel: 044-30600600, Fax: 91-044-30600700 E-mail: Sales@rstahl.net or Circle Readers’ Service Card 38

WIRE HARNESS ENGINEERING Version 2.5 of Eplan Harness proD focuses on optimising user workflows and the coupling of the 3D wire harness engineering system to the Eplan Platform’s central parts management. Users then have only one central parts management system which they are able to access over the entire course of a project. This significantly reduces the effort in maintaining master databases and enables continuous workflows from schematics through to production documentation. Master data workflows have been further optimised through the derivation of 2D symbols from existing 3D data. Version 2.5 aims to provide a user-friendly 3D system for wire harness design. Users who use AutoCAD symbols can look forward to a much improved import function. Imported DWG and DXF drawings can be edited in Version 2.5 with all the relevant content being extracted. Version 2.5 includes many new features, eg, the fixing of a 3D object’s positioning, the option to position the starting point of a new bundle in a wire harness into existing bundles, and the automatic routing of cables. To support production, wire colourings can be displayed in the connector symbol on the nailboard. Production can then use the drawing to identify the correct positioning of a wire at a connector. There are also many new features in the nailboard design to interest users. Version 2.5 has separated the “data layer” from the “display layer”. Batch processing of updates has been added to project management section. The need for evaluation or drawing updates is detected and then batch processed to further reduce project management effort. Features such as the automated updating of library parts or the newly supported CAD formats. For details contact: Rittal India Pvt Ltd - EPLAN Division NCC Urban Windsor, 3 rd Floor, New Airport Road, Bengaluru, Karnataka 560 064 Tel: 080-33240700, Fax: 91-080-33240741 E-mail: info@eplan.in or Circle Readers’ Service Card 39

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Silicone rubber is a perfect choice for medical, pharma and food processing industries. Silicone has comparatively low mechanical properties, tensile strength, elongation and tear strength; however, they keep constant even at high temperatures but should not be used for high temperature steam. Its resistance to oil and hydrocarbon is fairly limited and similar to that of chloroprene rubbers. Reasonable resistance to a whole range of general chemicals but acids, alkalis, esters and kerosene should be avoided. Silicone has excellent resistance to heat up to 220 oC intermittent. It remains flexible at low temperature of (-50 oC) and it is also resistant to UV light, ozone and weathering. Exhibits low inflamability and low smoke toxicity. It has good electrical insulation properties.

General Products

SILICONE RUBBER SHEET

For details contact: Kiran Rubber Industries 135 Shiv-Krupa Indl Estate, LBS Road, Opp: Raj Legacy, Vikhroli (W), Mumbai 400 083 Tel: 022-42637400, Fax: 91-022-42637499 E-mail: info@kiranrubber.com or Circle Readers’ Service Card 40

CORROSION-RESISTANT BEACON, HORN & COMBINATION UNITS R STAHL’s new Yodalex Super Series comprises a suite of signalling devices designed for use in hazardous areas and harsh environments. The units are equipped with a lightweight GRP “ex d” flameproof enclosure and sealed against water and dust ingress according to IP66 and IP67. The Super Series is ATEX and IECExapproved for use in zones 1, 2, 21 and 22 for gas and dust atmospheres. Global onshore and maritime approvals, such as GL, CUTR, Inmetro and Peso will follow shortly. The omnidirectional horn featured on the YL6S and YA6S units has a max sound output of 110 dB at one meter. The user can individually select the tone for each alarm stage from 32 internationally recognised frequencies. The FL6S beacon is fitted with a 5 Joule Xenon strobe. When used in conjunction with the new lens designed specifically for the Super Series, it produces a 49 effective candela flash at a rate of 1 Hz. The beacon is available with a choice of seven different lens colours. The YL6S combines all of the features present in both the YA6S and FL6S. The release of the Super Series completes the new line of GRP signalling equipment offered by R STAHL that also includes the YA90 directional sounder, the MCP manual interface and the FX15 beacon. Together, these robust products provide customers with the complete range of audible and visual signalling as well as manual interface equipment for ATEX and IECEx hazardous zones 1, 2, 21 and 22 in extreme and aggressive environments. For details contact: R STAHL Pvt Ltd Plot No: 5, Malrosapuram Main Road,Sengundram Indl Area, Singaperumal Koil, Tamil Nadu 603 204 Tel: 044-30600600, Fax: 91-044-30600700 E-mail: Sales@rstahl.net or Circle Readers’ Service Card 41

MAGNETIC FLOAT SWITCH Float switch is an electrical On-Off switch, which operate automatically when the liquid level goes up or down with respect to a specified level. The signal thus available from the float switch can be utilized for automatic control of pump or allied elements like solenoid, lamp, relays, etc. These floats are available in vertical and horizontal types in PVC, SS and nylon material depending on its application. For details contact: R S Electronics 15/1a2, Plot: III, Lakshmi Nagar, Ramamoorthy Street, Moondramkattalai,Chennai 600 128 E-mail: rselectronics75@ymail.com or Circle Readers’ Service Card 42

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Features

Electrostatic Explosion Hazard for Ignition-Sensitive Dusts Electrostatic sparks occur in various operations in powder manufacturing industries. There exists probability of explosion originating from electrostatic spark ignition if discharge energy of spark exceeds minimum ignition energy (MIE) of dust-air cloud. This paper analyses this hazard for dusts having MIEď‚Ł5 mJ. MIEs of some selected ignition-sensitive dusts were determined with Vertical Glass Tube Apparatus using a capacitive discharge circuit. Risk assessment of industries handling such dusts needs consideration of small plant-items (very low capacitance or larger capacitance/ small voltage) which may lead to hazardous situations due to electrostatic spark discharges.

T

Manju Mittal Sr Pr Scientist Fire Research Laboratory CSIR-Central Building Research Institute Roorkee, Uttarakhand 247 667 E-mail: mm_s123@rediffmail.com

he knowledge of ignition behaviour of dust-air mixtures due to electrical sparks is important for explosion risk assessment in chemical industries to decide extent and cost of explosion safety measures. Most industrial operations producing dusts, eg, sieving, pouring, conveying and grinding, result in build-up of static charges and dust explosions occur whenever an object (non-earthed electrically conducting) is charged to a high voltage and discharges its energy to earth via an air gap. Ignition sensitivity of dust-air mixture depends on particle size, moisture content and chemical composition of dust. The probability of explosion originating from electrostatic spark ignition is always there if discharge energy of spark is greater than minimum ignition energy (MIE) of dustair cloud. The present study is aimed at analysis of electrostatic ignition hazard and safety for dusts/powders with high ignition sensitivity and very low MIE.

accumulated charge, the charge can dissipate to ground); discharge (if charge continues to accumulate because charges formed in separation process cannot flow to ground quickly enough, a discharge occurs as breakdown field strength reaches). Typical charge generating scenarios are: size reduction (milling, grinding); drying (fluid bed, flash, spray); pneumatic transfer; sieving; emptying/filling powder from/to bags/drums; rubbing insulating surfaces; walking on insulating floors; removing synthetic clothing; passing of insulating conveyor belts over rollers; etc. There is inductive charge displacement inside the object when placed in an electric field. Electrical energy stored in plant-unit is:

Incendivity of Discharge - Overview

Spark results on discharge of this energy to earth across an air gap of appropriate length. To assess risk of producing incendive discharge the amount of charge accumulated on metal plantunits, processing materials - powders and insulating solids, is determined. Energy of spark discharge from charged conductor is predicted using equation 1. Capacitances and voltages and spark energies for typical plantitems are summarized in Table 1 (1, 2) . Electrostatic discharge can be incendive

Electrostatic

The steps leading to charge build-up and discharge in industrial plants are: charge separation (between powder/dust and plant-units - charging of surfaces in contact); charge accumulation (on powder/dust, charged dust-air clouds deposition upon insulated surfaces, plant items, packaging-containers, etc); charge dissipation (if a connection of sufficient conductivity is established between ground and sites of

E=

1 cv 2 2

...(1)

where, E - Energy of discharge, J C - Capacitance of plant-unit, F V - Potential, V

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Object

Stored Energy, mJ Potential, kV 10

20

30

Major plant items, eg, reaction vessel

100-1,000

5-50

20-200

45-450

Small metal items, eg,. scoop, tin, can

10-20

0.5-1

2-4

4.5-9

Small containers, eg, bucket (volume~0.05 m 3)

10-100

0.5-5

2-20

4.5-45

Medium containers, eg, drum (volume~0.5 m 3)

50-300

2.5-15

10-60

22.5-135

Human body

200-300

10-15

40-60

90-135

Flange (100 mm)

10

0.5

2

4.5

Bolt (11 mm)

3

0.15

0.6

1.35

Table 1: Typical metal items in industries with their capacitance and stored energies.

when energy released is equal to or greater than MIE of a dust-air mixture defined as minimum spark energy needed to ignite an optimum concentration of dust using a capacitive spark. Energy released and incendivity depends on type of discharge controlled by electrical properties of installations and products, geometrical layout of plant-unit, operation, etc - spark discharge (<1 J), conical pile discharge (<1 J), brush discharge (<3 mJ); propagating brush discharge (<10 J) (1). Dust

Sparks from isolated conductors are most incendive discharges and it is essential to avoid this form of accumulation by earthing/bonding of conductors. A high resistivity material solid object can be considered capable of accumulating electrostatic charge if the earthing resistance at some points exceeds ~10 6 -10 8 ohm (2) . This threshold exceeds for insulating material objects. Stored conducting powders can be treated in a similar manner to metal plant. The

human body is charged due to movement or by coming in contact with or being near a charged object. If a charged insulator is backed by a conductor, more charge can be stored as such a system forms a capacitor. A discharge obtained under such circumstances is an intense and highly energetic propagating brush spark discharge. Stored high resistivity powders inhibit migration of charge and tend to give brush type discharge. Figure 1 shows proposed safety measures. MIE for most of the dusts is >5 mJ and in practice large and medium size plant items are considered in analyzing explosion risk ignoring the risk arising due to presence of small plant items liable to lead to low energy discharges and dangerous for low MIE dusts. Experimental Work-Determination of MIEs of Some Ignition-Sensitive Dusts MIE of dusts was measured in 1.2-L Vertical Glass Tube Apparatus (similar to Hartmann Apparatus (1) ) shown in Figure 2 as per standard procedure (3, 4) . Ignitionsensitive dusts studied are: aluminum, bisphenol A, dimethyl terephthalate,

Particle Size, Îźm

MIE,mJ

Dust

Particle Size, Îźm

MIE, mJ

1 400 nm 200 nm 150 nm 100, 50, 30 nm

4 3 3 1 <1

Magnesium

22 10 1 400, 200, 150 nm 100, 50, 30 nm

4 3 2 1 <1

Bisphenol A

22

4

Paint-acrylic resin-based

74 37 22

3 3 2

Dimethyl terephthalate

22 10

2 1.6

Sulphur

74 37 22

3 2.4 1

Fructose

180

1.2

Titanium

147, 74 37 22 100, 50 nm

3 2 <1 <1

Naphthalene

106 74 37

2 1 1

Toner

10

<1

Polyethylene glycol

74 37

5 4

Zinc stearate

10

4

Aluminum

Features

Capacitance, pF

Table 2: Minimum ignition energy of dusts - experimental results (CSIR-CBRI Study)

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Features Figure 1: Proposed safety measures to minimize dust explosions due to electrostatic ignition.

fructose, magnesium, naphthalene, polyethylene glycol, acrylic resin-based powered paint, zinc stearate, sulphur, titanium and toner. Samples of desired sizes were prepared in laboratory or obtained from manufacturers. The apparatus consists of a glass tube placed over a dispersion cup and fitted with two brass electrodes (3 mm diameter) connected to a spark generating system having variable capacitor bank; variable voltage supply/ continuous spark unit; and step-up transformer. Spark is triggered by high voltage transformer using two-electrode system connected to secondary winding of transformer. Spacing between electrodes is varied between 2-6 mm. With variable combination of capacitance and voltage, it is possible to obtain sparks with ignition energies 0.5 mJ–3.2 J. There is precise electronic synchronization between dust dispersion and spark onset. Ignition delay times can be selected between 20 to 200 ms. Energy discharged from capacitor is: W=

1 c(v 2 - v 2) i f 2

C - Total capacitance of discharge circuit, F Vi - Initial voltage of charged capacitor, V V f - Final voltage of charged capacitor, V To establish MIEs, tests are started at high spark-energy levels using large discharge capacitance which is reduced in steps until no ignition occurs. Dust sample is placed in dispersion cup, dispersed in glass cylinder using compressed air blast and ignited by spark between two electrodes. Ignition trials of dust-air mixture are attempted, after a specific ignition-delay time, by a spark discharge from charged capacitor. Stored energy discharged into spark and

occurrence/non-occurrence of flame is recorded by visual observation. If flame propagation is observed, energy of spark is reduced until no flame propagation is seen for ten consecutive tests. MIE is sought by varying dust concentration; spark discharge energy and ignition delay time. Experiment is started with a dust loading corresponding to dust concentration twice the minimum explosible dust concentration or 3 250-500 g/m and ‘go/no-go’ spark energy is estimated. Once a limit is found for a particular dust concentration, the procedure is repeated for higher and lower dust concentrations until a roughly parabolic curve is obtained for ignition energy verses dust concentration. Ten tests are conducted at most ignitable dust concentration. MIE is determined from MIE vs concentration curve. MIEs of all dust samples were measured over a range of dust concentration. Figure 2 presents typical MIE test results for magnesium indicating MIE as 4 mJ and experimental points showing ignition and non-ignition at ignition energies higher and lower than MIE, respectively. Similar curves were obtained for all dust samples and MIEs were determined (Table 2). Analysis - Electostatic Hazards for Low MIE Dusts

Ignition

For powders/dusts having low MIE (such as determined above) consideration of situations where very low energy

...(2)

where, W - Discharge energy, J

Figure 2: Vertical Glass Tube Apparatus for determining MIE of dusts.

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Conclusions

Features

Some possible mechanisms for generation of accidental low-energy electrostatic sparks in practice have been discussed. In general, with dusts with a MIE 5 mJ it is advisable to implement explosion protection measures, which go beyond the avoidance of effective ignition sources. Risk assessment of industries handling such dusts needs consideration of small plant items, which are usually left and may lead to hazardous situations due to electrostatic spark discharges. ◘ References 1) Eckhoff, R K (1991). Dust Explosions in the Process Industries. Oxford: Butterworth Heinemann. Figure 3: Typical experimental results for determining MIE of dust (magnesium powder - 22 μ m).

discharges may occur is desirable. Incendivity of electrostatic discharges from insulating solids in dust cloud/ bulked form for dust-air clouds having ignition energies >5 mJ is still the subject of research; however, their incendivity to low MIE dust clouds is proven. Electrostatic discharges from insulating solid materials/bulk powders can be incendive to sensitive dust clouds. Some metal dusts having low MIE may form electrically conducting layer on solid surface of plant-unit reducing probability of electrostatic spark inside the equipment containing these dusts. If MIE of dust is very small, incendiary electrostatic sparks may be generated even by minor plant items (Table 1). Charging of these items by contact with moving particles or by charge migration from charged settled powder will not be fast enough to result in spark discharge hazard. Small objects (C-3 pF) normally have sharp edges/corners causing charge drain by corona discharges as soon as object reaches ~ 10 kV. Timeconstant for leaking any charge on such items to earth is very short (1 s) even when the resistance to earth is ~10 12 . Such small objects cannot be charged to

high voltages unless charging process is very fast. This forces one to assume that accidental electrostatic spark discharges of low energies (<5 mJ) would unlikely in industries and same safety procedure could be applied to any plant producing powders/dusts of MIE <5 mJ, irrespective of actual MIE of dust. However, due to electrostatic induction charging of small objects may be fast enough to generate high voltages leading to discharge under favourable conditions. For example, if a small metal object is introduced in metal silo (earthed) together with powder (electrically insulating) charged on its way to silo, powder settled in silo may produce intense electric field. As small object comes in contact with this field, electrons inside it may get displaced by induction and a spark discharge may take place, which may lead to ignition, fire/explosion.

2) Singh, S (1992). Electrostatics in Industry, Proceedings of Seminar, Technicom, Bangalore. 3) ASTM (2007). Standard Test Method for Minimum Ignition Energy of a Dust Cloud in Air, E 2019-03. West Conshohocken, PA: ASTM International. 4) Mittal, M, Explosion Characteristics of Micron- and Nano-size Magnesium Powders, Journal of Loss Prevention in the Process Industries, Vol 27, January 2014, 55-64.

Sparks of very low energies may also result from discharge of capacitances of the order of 10 pF charged to moderate voltages. This presents an increased risk of ignition for dusts of very low MIEs. It is essential to take necessary safety measures as proposed in Figure 1 even for these minor plant items. Chemical Products Finder | October 2015 | 43

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Features

Reliable Sealing of Heat Exchangers with ePTFE The connections to shell and tube heat exchangers pose immense challenges for the seals that are used because of both the chemically aggressive media and the frequent temperature load changes. Despite its excellent chemical resistance, polytetrafluoroethylene (PTFE) is not typically suitable as a sealing material in this case because the creep tendency of this material jeopardizes a reliable seal. Gore uses a process it developed and patented to expand PTFE and thus significantly increase its creep resistance. This in turn improves the reliability of the sealed connection and positions ePTFE as a sealing material for use in shell and tube heat exchangers.

S

hell and tube bundle heat exchangers generally include not only several connection pieces but also a shell cover flange with a significantly larger nominal diameter. The shell cover flange creates the seal to the tube bundle flange, which then seals the shell flange. These connections are subjected to the full operating pressure and test pressure of dozens of bar and seal it from the environment. Often times the tube bundles are arranged in several passes that are channeled by the use of partition plates. This requires a seal at the head of the heat exchanger and between the tube passes at the partition plates where the pressure difference is considerably lower. The numerous potential different arrangement of the passes requires specially adapted seal designs. The sealing challenges that pertain to the main flange position can be attributed to a combination of different conditions: • High temperatures and pressures • Temperature load changes caused by starting up and shutting down part of the process • Complex sealing geometries including separators, often combined with large nominal diameters • Chemically aggressive media • Damaged sealing surfaces, due to corrosion or warping, for example

Christian Wimmer Product Specialist W. L. Gore & Associates GmbH, Germany E-mail: cwimmer@wlgore.com

• The economic necessity of minimizing downtime • The requirement to document legal compliance.

“Creeping” Gasket Tapes Made of PTFE Gasket tapes are occasionally used to seal the static connections to shell and tube heat exchangers – sealing materials with a defined width and thickness, but an undefined length. They offer a way of functionally connecting the junction points and can be shaped as desired at the point of installation. Since the gasket circumference is completed at the time of installation, it is no longer necessary to completely dismantle the heat exchanger, removal of the tube bundle for example. It is only important that the sealing surfaces be sufficiently accessible. Gasket tapes have been around in many different industrial fields for several decades. By introducing the GORE Joint Sealant, Gore launched the first gasket tape made of expanded PTFE (ePTFE) back in 1971. However, multi-axially expanded PTFE technology (ePTFE) finally made it easier to use it with shell and tube heat exchangers across a broader range of application conditions. The need for these material performance improvements by Gore is the low creep resistance of PTFE. In molecular terms, PTFE consists of a chain of carbon atoms that is saturated with fluorine atoms. The strong covalent carbon-fluorine bond is responsible for this polymer’s nearly inert chemical reaction behaviour. This explains why this material is desired as a sealing material in aggressive media. However, the lack of reactivity also means that PTFE chains cannot be molecularly linked like other materials, elastomers for

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Features

reason why simple PTFE (often brought into shape by sintering) can hardly be used in heat exchangers, which by their very nature are often subjected to significant temperature load changes. Increasing the Creep Resistance of PTFE through Expansion

Figure 1: Progression of the sealing surface pressure over time. Based on EN13555, PQR , using 15 mm x 3 mm bands laid to form a closed ring (Ø150 mm). The values were determined at 30 MPa and 150˚C (302˚F).

example, and this results in a profound cold and warm flow behaviour, also known as “creeping.” Risk of Deformation of the Sealing Material Creeping refers to the mechanical deformation of a component – in this case the seal – when subjected to loads and temperatures. One reason why seals in flange connections function is because the surface pressure caused by the bolts allows for irregularities in the sealing surfaces to be filled up and for blocking of leakage channels inside the seal. This reduces leakage (depending on the behaviour of the sealing material) to an acceptable level. In this sense, leakage refers to the admissible substance flow, irrespective of the prevailing mechanism, in other words, the sum of all mass flows from Fick’s law of diffusion to gross leakage. This sealing function is severely impaired by the creep tendency. Inside a flange connection, creep of a sealing material takes place in such a way that the load is reduced at a certain temperature until a balance between the internal strength of the seal and the external load is achieved. This behaviour is called creep resistance. Deformation takes place when equilibrium is reached. With a seal, this is a reduction in the thickness that reduces the bolt elongation and thus

the preload. This ultimately means a loss of strength or surface pressure that depends on the stiffness of the sealing system with respect to its extent. This surface pressure loss is called “creep relaxation” and can be so great that the bolts are loosened completely. Creep and the respective relaxation mainly occur during the heating up and cooling phases, in other words during thermal cycling. These effects occur to a significantly lower degree with a constant temperature (Figure 1). Creep relaxation is the main

There are different ways to reduce the creep resistance of PTFE. One way is to add filler materials 1. This technique is only appropriate for use with gasket tapes to a limited extent due to the fact that the flexibility of filled PTFE is extremely limited. Strips of simple PTFE are also not very useful for the same reason; because it is difficult to form them into the required shape at the time of installation. Expanding the PTFE material offers an effective solution. This creates a microporous structure through mechanical stretching. This structure causes a significant change in properties. On the one hand, it improves the conformability due to the higher compressibility 2, as well as creep resistance on the other hand (Figure 1). Here, it is important for the expansion to take place as evenly as possible (Figure 2). This is crucial to ensuring that the sealing properties are and remain the

Figure 2: REM images of the Gore ePTFE.

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Features

• Design flexibility because of the various widths, which then allow for higher surface pressures (higher tightness classes) • High creep resistance compared to other PTFE-based materials (Figure 4) • Excellent adaptability irregularities 3

to

flange

• Not reusable (due to the high compression and low spring back) • Non-biodegradable, do not age, UVresistant • Resistant to all types of media (pH 0 to 14) 4 • Long shelf life, limited only by the declining bonding strength of the mounting aid adhesive tape. Mounting of ePTFE gasket Tapes Figure 3: REM image of the GORE gasket tape Series 500.

same at all positions of the seal. It can still have a texture, however, although it should not extend throughout the entire seal (in other words for the entire length of a tape). In fact, a controlled transverse texture (with a circular transfer radially) can have a positive effect on deployability and bending stiffness. While such a structure changes the sealing properties

(the transverse strength, for example), this can be taken into consideration structurally (Figure 3). Expansion allows for bands to be produced that are flexible enough to be laid in even narrow radii. The following properties are characteristic of gasket tapes made of ePTFE: • Easy and fast adaptation to suit even complex flange geometries

Figure 4: ePTFE shows higher creep resistance compared to other PTFE-based materials.

ePTFE gasket tapes are mounted on one of the flat sides of the tape using adhesive tape. The adhesive only serves as a mounting aid and has little or no impact on the sealing effect. The adhesive is also considerably less temperature- and chemical-resistant than ePTFE. This means it usually decomposes during operation. This makes it easier to remove later on. When closing the seal made of an ePTFE gasket tape, one must make sure that the ends overlap and the right method is used. Basically, there are two different types of ePTFE gasket tape materials that require different overlapping methods: monoaxially and multiaxially expanded ePTFE. Monoaxial expansion is the older technique used to produce ePTFE gasket tapes. With this method, the PTFE is stretched to the tape only longitudinally. The texture that this creates is responsible for the weaker transverse strength (Figure 5). This results in greater broadening during initial compression, an aspect that must be taken into consideration in the design. Broadening of 20% and more is quite common (Table 1). The advantage that mono-axially expanded gasket tapes offer is that they can be compressed to be very thin during installation. This means they are able to adjust to micro unevenness 5 very easily. Macro unevenness 6 on the other hand is

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21 MPa

3 mm

1.2

1.2

5 mm

1.3

1.3

7 mm

1.2

1.2

10 mm

1.2

1.2

14 mm

1.1

1.1

17 mm

1.2

1.2

20 mm

1.1

1.2

Table 1: Ratio of the compressed to the original width.

quite difficult to compensate for with this type of tapes. Furthermore, unlike with multi-axial expansion, the ends can be overlapped. Nevertheless, mono-axially expanded tapes are used only very rarely in heat exchanger applications because the lack of transverse strength results in a

higher creep tendency. Although the small installation thickness compensates for this to some degree 7, the performance gap to multi-axially expanded PTFE gasket tapes increases as temperatures rise. The multi-axial expansion of the material takes place in the direction of two vectors that stand at right angles to each other. This results in a multi-axial structure, in other words an orientation of the emerging fibrils in all directions. The transverse texture can be produced by varying the intensity of the expansion. Among other things, it helps to keep the nodes small because this nonoriented material contributes to creeping (Figure 6). Multi-axial expansion is of particular advantage in that it offers high transverse strength and allows for gasket

tapes that are particularly resistant to creep. Conclusion The process of expansion compensates for the disadvantage of the PTFE material - its high creep tendency - and results in a chemically stable, creep-resistant sealing material. If expansion takes place multi-axially, the creep tendency of the material will be reduced to such an extent that it can then be used as a sealing material under extreme conditions of both chemically aggressive media and frequent major temperature load changes. Gasket tapes made of multi-axial ePTFE are therefore ideally suited for use in shell and tube heat exchangers. ◘

Features

17 MPa

References: 1) Handbuch Dichtungspraxis, 2003, 3. Auflage; Wolfgang Tietze (Hrsg.); Vulkan-Verlag Essen; Seite 31, § 2.2.3 Modifizierte PTFE-Werkstoffe 2) Untersuchung und Anwendung von Dichtelementen, XVI. Dichtungskolloquium 2009; Alexander Riedl (Hrsg.); Vulkan Verlag Essen; Seite 189, Experimentelle Quantifizierung der Anpassungsfähigkeit von Dichtungen 3) Untersuchung und Anwendung von Dichtelementen, XVI. Dichtungskolloquium 2009; Alexander Riedl (Hrsg.); Vulkan Verlag Essen; Seite 189, Experimentelle Quantifizierung der Anpassungsfähigkeit von Dichtungen

Figure 5: Monoaxially expanded PTFE

4) Ausgenommen geschmolzene oder gelöste Alkalimetalle sowie elementares Fluor insbesondere bei höheren Temperaturen und Drücken 5) Micro unevennesses are unrepaired small irregularities in the sealing surface compared to the sealing length. They are caused by surface processing such as turning and grinding. They are often quantified by using roughness figures. 6) Macro unevennesses are large unevenesses in the sealing surface that can extend across large areas of the sealing length. They are caused by warping or corrosion.

Figure 6: Nodes in expanded material contribute to creep tendency.

7) Thinner seals creep to a lesser extent. Chemical Products Finder | October 2015 | 47

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Features

Purifying Water with Plasma Plasma-based sources can emit intense beams of UV and X-ray radiation or electron beams for a variety of environmental applications. For water sterilization, intense UV emission disables the DNA of micro-organisms in the water, which then cannot replicate. There is no effect on taste or smell of the water and the technique only takes about 12 seconds. This plasma-based UV method is effective against all water-borne bacteria and viruses. Intense UV water purification systems are especially relevant to the needs of developing countries because they can be made simple to use and have low maintenance, high throughput and low cost. Plasmabased UV water treatment systems use about 20,000 times less energy than boiling water.

T

here is only a limited supply of drinking water available as a resource. At the same time, since the beginning of industrialization the worldwide level of water consumption has increased on a massive scale and will continue to grow further along with the tremendous technological development. Today, the provision of water in potable quality, above all to supply a growing world population with clean water, is a global challenge. For this reason, improved water management and, especially, efficient methods for treating wastewater are becoming more important. With the growing population and depleting natural resources, we now face an unprecedented global water crisis. Water scarcity and water pollution have become critical long-term problems that increasingly are severely impacting industry and the quality of human health around the globe. As a result, industry and water suppliers are facing an enormous challenge to replace existing complicated and costly treatments with simple and cost-effective new technologies. In particular, the energy intensiveness, cost, and ineffectiveness of current water treatment technologies present increasing technical and economic challenges to the food and beverage and pharmaceutical industries. Scarcity of Clean Water

Dr S S Verma Professor of Physics SLIET, Longowal, Punjab 148 106 E-mail: ssverma@fastmail.fm

The pollutants contained in wastewater are conventionally removed in central treatment plants after separation of the solid content by biological and chemical means. However, to an increasing extent the substances that are not easily biodegradable remain issues of concern.

These include for example medications in the wastewater from clinics, hospitals and old people’s homes, organic halogen compounds and cyanides from industrial plants or pesticides used in agriculture. To remove these compounds, physicalchemical methods such as advanced oxidation processes (AOPs) with ozonation, UV irradiation or the addition of iron salts can be used in combination with hydrogen peroxide. However, these purification processes generally require chemical additives that are classified as hazardous substances and that have to be disposed of as special waste. Scientists and engineers are working on a method to purify water with the fourth state of matter - plasma. The new technology which produces reactive radicals that can attack organic contaminants such as pesticides and pharmaceuticals, will help solve a problem not currently being addressed in conventional treatment methods that rely on filtration and chlorine. The technology, originally envisioned as a point-of-use system for underdeveloped countries, could be scaled up to a larger mechanism that would be implemented as a stage in the conventional treatment process. The study paves the way for the next generation of portable water purification devices, which could provide relief to the 780 million people around the world who face every day without access to a clean water supply. Cleaning Techniques The large industrialized purification plants are just not practical – they consume a large amount of energy and have high labour costs, making them very expensive to run. Small portable purification devices

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are increasingly recognized as the best way to meet the needs of clean water and sanitation in developing countries and in remote locations, minimizing the risk of many serious diseases. Some smaller portable devices do already exist; however, because they rely on reverse osmosis and thermal processes, they are able to remove salt ions but are unable to filter out organic contaminants from the briny water found in some river and lake systems. For people in remote locations, briny water can sometimes be the only available water source, that is why it is important to not only be able to remove salts from water, but to also be able to put it through a process of purification. The other downside of existing portable devices is that they require a continuous power supply to operate their thermal processes. On the other hand, the new membranes could be operated as a rechargeable device. Plasma Processes Purification

for

This plasma-based UV method is effective against all water-borne bacteria and viruses. Intense UV water purification systems are especially relevant to the needs of developing countries because they can be made simple to use and have low maintenance, high throughput and low cost. Plasma-based UV water treatment systems use about 20,000 times less energy than boiling water. Innovative water treatment system is capable of destroying waterborne micro-organisms by transforming a continuous stream of polluted water into non-thermal plasma. This system achieves total elimination of pathogens at low energy consumption. The micro-organisms contained in the water are affected by a number of plasma state phenomena, such as electric fields, ultra-violet and infrared radiation, shock

The use of atmospheric pressure plasma processes could provide an environmentally compatible and costeffective alternative. Ions, highly reactive radicals and short-wave radiation that degrade the contents of the wastewater are formed simply by applying a high voltage, which is igniting a plasma discharge in ambient air or oxygen. This renders the use of chemicals and their subsequent disposal unnecessary. The aim was therefore to develop a plasma process for purifying water and a suitable plasma reactor as a prototype. The special design of the plasma reactor insures an effective transmission rate of the highly reactive species formed in the plasma to the contaminated water. This is achieved by forming the plasma in direct contact with a flowing water film. The water to be purified falls through the plasma zone by the force of gravity, directly on to the outer surface of a grounded electrode (stainless steel cylinder). Hydroxyl radicals, among others, are created in the plasma and transmitted to the water. By means of their high oxidation potential these radicals and short wavelength UV radiation break down the dissolved contaminants until they are mineralized.

Features

waves and high temperatures. This results in the destruction of all microorganisms by thermal effect of plasma, ionization and irreversible electroporation, among others.

Electro-plasma Water Treatment Ozonation or electro-plasma wastewater treatment, is designed to disinfect and

Water

Plasma-based sources can emit intense beams of UV and X-ray radiation or electron beams for a variety of environmental applications. For water sterilization, intense UV emission disables the DNA of micro-organisms in the water, which then cannot replicate. There is no effect on taste or smell of the water and the technique only takes about 12 seconds. Chemical Products Finder | October 2015 | 49

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Features

purify natural waters and wastewater. Electro-plasma treatment removes radionuclides, oil, surfactants, fats, dyes, heavy metals and other compounds, both of organic and inorganic origin, from the treated waters. Plants currently in operation in Ukraine have a throughput of 500-m 3/day, and are designed to be expanded by the addition of further 500-m 3/day units. The units currently in use have an areal requirement of 8-m 2 for the wastewater treatment unit and an additional 4 m 2 for the drinking water unit. The wastewater treatment units have a power demand of 0.4 to 1.0-kW/ m 3, and a mass of 1,000-kg. The drinking water module has a mass of 500-kg. The electro-plasma wastewater treatment systems used comprise an impulse electromagnetic activator; a counterturbine ejector; an electro-hydro-gasimpulse reactor; an electro-gas-ionic stabilizer and a control station. Water (or wastewater) undergoes primary mechanical treatment and comes to the impulse electro-magnetic activator (EMA), where it undergoes further treatment by pulse electro-magnetic field. This treatment increases the solubility of gases, reduces the scaling capacity, and increases the sorption capacity of suspended matter, increasing coagulation rates by up to 45%. The effluent then flows into the counter-turbine ejector, where rotating around its axis, the flow pattern changes from laminar to turbulent flow. Simultaneously, the effluent is injected, through the ejector, with ozone, which oxidizes organic compounds and bacteria. The gas-liquid effluent is in a state of slow cavitation (about 7-W/cm 2 intensity) when it enters the electrohydro-gas-impulse reactor (EHGIR). There, the effluent undergoes treatment with pulsed electric discharges, which as a result of the impact of short shock waves (1 to 50-ms at pulse pressure about 20,000-kgf/cm 2), increases the solubility of ozone-enriched air by more than 30 times, forming a suspended matter flocculant that is not less than 0.2-m in diameter. The effluent is also subjected to UV-irradiation to remove bacteria and other pathogens. The flocculants

are removed by electro-coagulation and flotation in the electro-gas-ionic stabilizer (EGIS), decreasing the COD, and removing oil and grease. Chloride ions are transformed into chlorine during this stage of the treatment process, providing a further element of pathogen protection prior to the discharge of the treated effluent. Purification Membranes Another team of researchers have shown that water purification membranes enhanced by plasma-treated carbon nanotubes are ideal for removing contaminants and brine from water. According to researchers, these membranes could be integrated into portable water purification devices the size of a tea pot that would be rechargeable, inexpensive and more effective than many existing filtration methods. Contaminated water would go in one end and clean drinkable water would come out the other. The study showed that carbon nanotube membranes were able to filter out ions of vastly different sizes – meaning they were able to remove salt, along with other impurities. Scientists attribute the success of the new membranes to the unique properties of plasma-treated carbon nanotubes. Firstly, ultra-long nanotubes have a very large surface area that is ideal for filtration. Secondly, nanotubes are easy to modify, which allows to tailor their surface properties through localised nanoscale plasma treatment. Now that the researchers have proven the effectiveness of the method, they plan to extend their research to investigate the filtration properties of other nanomaterials. They will begin by looking at graphene, which has similar properties to carbon nanotubes, but could be made considerably denser and stronger. Advantages Electro-plasma treatment technologies are suitable for numerous operations and can be easily added on to existing treatment systems. The technology is well-suited to producing a product water that may be recycled on-site or to

produce additional final product waters. Ozonation has a further advantage in that it does not require the effluent to be treated with alum, polyacrylamide flocculant aids, lime, chlorination or other reagents, which require replenishment, preparation and additional treatment water consumption. Ozonation is a reagent-free purification method that is up to 100% effective in removing bacteria and other contaminants, including radionuclides, heavy metals, nitrites and nitrates, with relatively low power consumption rates (0.4 to 1.0-kWh/mÂł of wastewater, depending on concentration of contaminants). The technology is well-suited to providing process water for reuse. The process can be highly automated, and outputs can be tailored to specific requirements. A method for comparing the efficiency of advanced oxidation processes is the measurement of the energy input that is required to decolour methylene blue by one order of magnitude. Using the plasma process 4-g/kWh is achieved. This value is nearly one order of magnitude better than the energy efficiency measured with a UV H 2O 2 treatment of methylene blue. In another application of the water plasma method the project showed that cyanide is broken down by 90 per cent within 2 minutes. Unlike well-established advanced oxidation processes the plasma process for water decontamination has no barrier between the plasma and the medium that is to be purified. It therefore requires almost no maintenance and is characterized by a long life. A very high degree of efficiency is achieved even without the introduction of hazardous substances such as hydrogen peroxide or ozone. As a result of the project a demonstrator is now available that is suitable for purifying substantial quantities of contaminated water (240-L/h). At the moment further possible applications for the procedure are â—˜ being examined. Acknowledgement: The use of information retrieved through various references/sources of internet in this article is highly acknowledged.

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Loading Bay is the heart and soul of a warehouse, unfortunately the most overlooked area, says Kartik Gandhi, Director – Gandhi Automations Pvt Ltd

T

he importance of efficiently loading goods has always been evident. It has only increased with the years. Higher cost of skilled manpower consequently causes the necessity of hiring less qualified personnel. The cost of the goods is made up by the costs of raw materials’ production, storage, loading and shipment to the destination. With the introduction of better performing, precise and safe production machineries, a major chunk of the cost is passed over from the production to the storage and the loading process. The cost of loading the goods is a precise, inevitable phase, exactly definable that allows a scientific approach to problems and therefore, being able to arrive at solutions, which may be quantified as Return on Investments (RoI). Efficiently Loading and Unloading of Goods For efficiently loading and unloading of goods at the loading bay the basic equipment comprises dock levelers, a sectional overhead doors and dock shelters. They appear to be independent equipment, but installation of any one without the other may not result in a complete solution at the loading bay. All three equipment are unbelievably interdependent. However, the choice of either one of the three depends on many factors. For example, the type of goods, the weight, volume, quantity, dimension of the courtyard, the frequency of goods movement, the type of vehicles and the temperature to be maintained within the facility.

Kartik Gandhi Director Gandhi Automations Pvt Ltd, Mumbai Email:sales@geapl.co.in

The Loading Bays: How to equip them? With the approach mentioned above the motivation to reach the objective of cost reduction are the following:

Features

Loading Bay - the Heart and Soul of a Warehouse Operators at the loading bay: • Safeguards the operators from the risk of accidents. • Grants to the operator better environmental conditions, lowering their absences due to illnesses and increasing their productivity • Loading and unloading with the lesser possible effort. Material at the bay: • To avoid material damages to the goods • To avoid breaking the frozen food cold chain • To protect goods from diverse weather conditions Ecology and energy savings: • To avoid heating waste • To reduce heating conditioning costs

and/or

air-

Maintaining the quality: To grant a constant quality of the goods during loading and until their arrival at the consumer Vehicles: • To facilitate the vehicles approach operations • To fill in the available spaces on the vehicles • To load and unload as quickly as possible, minimizing the waiting time of the vehicles Speeding up the operations: • Remote controlling of the loading bay state • Remote addressing of the vehicles to the assigned bay • Remote calling of the driver when the load is finished Chemical Products Finder | October 2015 | 51

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Features

the inside of the pit, against special insulating parts. A horizontal insulating panel under the leveler pit insulates the tail-lift room (when existing). The best is obtained by the option “automatic return to rest position” of the Dock Leveler. In case of deep cold, the insulation can be increased by the use of Inflatable Dock Shelters, reaching the top of the energy saving. For avoiding collisions to the rigid insulated panels of the Inflatable Dock Shelters, Vehicle Wheel Guides are used. Also, Dock-Houses can be supplied with the “Recessed Loading Bay” system, for “fresh” and “deep cold”. How to load in order to save It is possible to load and unload your products in a safe way and in the process obtain remarkable energy savings.

Dock Shelter

Equipping also impossible:

when

it

seems

• Disposing of adequate equipment also in the warehouses without docks, at ground level • Disposing of equipment when it seems that the space of docking the vehicles lacks

end-finished enamel, previously ecologically degreased at 100oC, double phosphate, for destination on common environments • Hot dip galvanized for very humid, salted or aggressive environments • Stainless steel where fish, meat, milk is treated

• Properly equipping the dock for loading light commercial vehicles

• Anti-burst where needed

Choosing equipment, which allows the maximum building integration:

• For the type of activity and for the necessary carrying capacities

• That conforms to the necessity of the modern prefabrication

• That does not require maintenance

• That may be installed only at the end of the building works • That preserves the integrity of the building parts To choose the equipment that allows maximum electrical integration: • By drastically reducing the number of the electrical feeding descents

Choosing the adequate equipment:

• That conforms regulations

to

the

existing

• That is CE certified Each one of the above mentioned points has to be duly evaluated and each one must find the precise reply within the adopted decision. The “Deep Cold Loading Bays”:

To choose equipment with adequate materials and finishing:

This system includes a Telescopic Dock Leveler with a lip of one metre that remains - in rest position - closed by a Sectional Door that descends to cover the front of the whole Leveler.

• Painted with two components catalysed anti-rust and with two oven-dried components catalysed

The Sectional Door, that for the deep cold is 80 mm thick, has a trapeze and reducedwidth bottom panel that enters and seals

• By reducing to the minimum the total engaged power

The loading bay remains with the Dock Leveler in rest position and the Sectional Overhead Door closed, until the vehicle is positioned. The driver drives back centering to the Dock Shelter and stops the vehicle the moment it gets in contact with the bumpers. The Sectional Overhead Door is then opened only when the vehicle is positioned, brakes applied and engines shut-off.This eliminates the exit of hot air, intake of cold air (or the opposite in hot and inside conditioned places) and intake of exhausting gases in the warehouse. After the Sectional Overhead Door opens, the lip of the Dock Leveler connects to the truck bed for loading/unloading to take place. At the end of the loading/unloading the Dock Leveler is put in the rest position and the Sectional Overhead Door is closed, without moving the vehicle. The vehicle then departs at the end of the process. How much time elapses between the arriving of the vehicle and the beginning of the loading is the big question that must be solved. The shorter it is, the greater is the saving and consequently has a bearing on the material cost. ◘

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CosmoDry System: horizontal paddle vacuum dryer with concentric agitator, fitted with a shaft dismountable in sections for a maximum ease of cleaning and inspection.

M

aximum ease of cleaning, maintenance and internal inspection: a mix of qualities that make CosmoDry System ® the ideal solution even for multi-product applications. CosmoDry System is the innovative horizontal paddle vacuum dryer created by Italvacuum as the result of a deep analysis, conducted in cooperation with the most demanding customers, regarding the most urgent requirements of their production. Power, loading flexibility, drying speed, ease of unloading, maximum product quality. These are all fundamental values. But Italvacuum went further, in order to facilitate cleaning and internal inspection. A quality that allows to maintain over time the machine’s perfect efficiency and to optimize the production processes. CosmoDry System is based on an operating philosophy conceived for the drying of wet powders coming from filtration or centrifugation stages and it is suitable for the production of Active Pharmaceutical Ingredients (API), Fine Chemical and Intermediates. CosmoDry System consists of a horizontal cylindrical chamber, equipped with a concentric agitator, fitted with an heated shaft dismountable in sections: this is the great added value of the CosmoDry System, setting it apart from conventional paddle vacuum dryers. The peculiar configuration of the agitator enables continuous stirring of the product and facilitates its thermal exchange, reducing drying time. Moreover, it was designed to limit mechanical and thermal stresses, thus allowing the treatment of thermo-sensitive products. But that is not all. Its special features allow reducing product deposition at a minimum, providing an easy and efficient unloading operation, for which a dedicated operative cycle has been introduced. Finally, a value that has always been a milestone for Italvacuum: safety.

Marketing Initiative

The Evolution of The Species

CosmoDry System - concentric agitator detail.

CosmoDry System is safe for the product and the operators, because it is designed and manufactured in compliance with the increasingly strict safety standards and according to cGMP and ATEX regulations. Constructive Details For the parts that are in contact with the product CosmoDry System is built in AISI 316L stainless steel, but other weldable materials are also available if requested by customer, for instance ALLOY C-22 and AISI 904L. The walls of the drying chamber, the port lid and the agitator shaft are heated through diathermic liquid circulation. Internal surfaces are mirrorpolished or electro-polished in order to optimize resistance to corrosion, reduce friction on the product and simplify cleaning operations. The agitator shaft is equipped with a double mechanical seal system, conceived to guarantee perfect vacuum tightness and absolute purity of the dried batch, avoiding any risk of product contamination. The mechanical seal can be pressurized through liquid or inert gas.

Maximum Ease Inspection

of

Cleaning

and

Easy internal cleaning is guaranteed by an efficient CIP system, that allows the washing of all the parts in contact with the product. The frontal port lid and the easy disassembling of the agitator in different parts provide great accessibility for inspection and SWAB testing: no bulky equipment is required, thus preventing long machine stops. A feature that makes CosmoDry System unique compared to vacuum dryers. The exterior of CosmoDry System is easy to clean as well. The watertight external cladding of the entire machine (cGMP “particle free” configuration) covers the insulation, the electric wiring and the hydraulic and pneumatic piping. In addition no support frame occupies the sterile room, only the drying chamber flanged to the wall. This makes external cleaning extremely easy, preventing product accumulation. These features, together with the partitioning solution, allow clean room installation, guaranteeing pressurization and separation of sterile room from technical room. Chemical Products Finder | October 2015 | 53

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Marketing Initiative

80% of the chamber’s volume, according to the processed product, meeting in this way the multiple needs of chemical and pharmaceutical industries. Strengths • Easiness of internal cleaning and washing, thanks to: > Agitator dismountable in different parts > Total absence of sharp corners in the drying chamber > CIP systems that enable reaching the required residual ppm value with few washing cycles • Agitator profile designed to limit mechanical and thermal stress on the product and reduce to a minimum the formation of agglomerates. • Very easy internal accessibility to the chamber for inspection and “swab” test thanks to the front port lid and the possibility of dismantling the agitator in different parts. • Very high final vacuum values • Further reduced drying times

CosmoDry System - clean room installation.

Turn-key systems Italvacuum is the only manufacturer in the world that, in addition to the dryer itself, can design and build internally all the

auxiliary units that complete the plant, properly sizing them to meet every process requirement, vacuum system included: • High vacuum group SAURUS 939 • Vacuum condensation group for reduction of drying time and recovery of extracted solvents • External safety filtering powders containment

unit

for

• Heating and cooling group for system thermoregulation • Control panels with PLC for complete plant management, provided with software that is certifiable according to CFR 21 – Part 11 regulations and that guarantees reproducibility of the dried batches and communication with centralized supervision systems. Dimensions

CosmoDry System - swab test.

CosmoDry System presents a great loading flexibility. It is manufactured in volumes ranging from 150 to 4.400 liters. The loading capacity can vary from 30% to

• Homogeneity and uniformity of dried batch thanks to the complete stirring of the product. • Very easy product unloading thanks to: > total absence of friction points on the product > reduced gap between the agitator paddles and the wall of the drying chamber > specific unloading programme • Very easy external cleaning thanks to: > watertight entire machine

cladding

of

the

> absence of support frames in the clean room > possibility of installation in clean room with separation between clean room and technical room (Particle Free Configuration) • Total system automation capable of guaranteeing process reproducibility ◘ for all batches. For details contact: www.italvacuum.com

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In the chemical industry, low grade waste heat, through which hot water can be generated at 50o-100oC, is produced in abundance and wasted. This low-grade waste heat can now be used efficiently for process cooling or air conditioning in an eco-friendly way to optimize energy efficiency.

I

t’s an advanced green technology using inert ‘Silica Gel (Adsorbent) – Water’ (Refrigerant) pair.

For the first time in India, Bry-Air has introduced the Adsorption Chiller, an Energy smart green cooling technology that uses low grade waste heat from process waste heat, solar heat and trigeneration (CHP) to produce chilled water for process cooling and air conditioning.

Marketing Initiative

Adsorption Chillers for Chemical Industry

Why Adsorption Chillers? In the past, the low cost of fuel and feedstock enabled the chemical industry to operate mechanical chillers affordably. But today's fuel prices are creating an opportunity to recover low grade waste heat for Adsorption Chillers. Energy saved add to the bottom line. Process in checmial plant like reflux condensers, condensate streams, product coolers, boiler exhausts, boiler blow down, PRDS cooling, compressor inter stage and after coolers and process furnaces, all produce heat that can be used in adsorption chillers to produce chilled water.

heat and replace both product cooler and mechanical refrigeration systems and reduces the wear and tear associated with mechanical cooling equipment. Capturing and using waste heat could be one of the largest conservation and green house gas reduction opportunities. Heat recovery is an opportunity to recycle energy that is typically wasted.

There are other multiple low grade heat sources like evaporator condensate heat that can generate hot water from 60 o-80 oC in chemical plants. Process will benefit if it can run economically with water supplied at lower temperatures. The process streams can be cooled by Adsorption Chiller using low grade waste

The Adsorption Chiller is a unique approach to save energy cost for air conditioning and process cooling. Low grade waste heat is the driver for Adsorption Chillers rather than from large amounts of electricity like conventional air conditioners. The heat extracted from the chilled water and the heat consumed from the hot water is

directed into a cooling water system used to dissipate this energy. Very little electric power is consumed running the chiller. The electric power consumed by the adsorption chiller is mainly by the refrigerant circulation pump, PLC (programmable logic controller) and the intermittent running of a fractional horsepower vacuum pump. Amount of electricity is same as a handful of old-fashioned incandescent light bulbs. Why Recover Waste Heat? Industrial operations represent a significant source of greenhouse gas emissions and most of the waste heat is simply rejected via cooling towers to the atmosphere. It can be thought of as “dumped” heat. Waste heat is the by-

Sources and applications of Adsorption Chiller

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Marketing Initiative

Attribute

Adsorption Chiller

Absorption Chiller

Continuous operation

Over 8,000 hours per year continuous operation possible

Frequent shut-down maintenance for the dilution of lithium bromide solution

Start-up/Shut-down time

No special procedures. Full capacity reached in 8 minutes maximum. No adverse effects from loss of power.

Dilution cycle required. Start-up and Shut-down time varies with manufacturer.

Maintenance

Virtually none

Needs continuous monitoring and maintenance including: 1) Liquid analysis (replacement indication) 2) Pumps 3) Controls 4) Back-up Boiler 5) Air Leakage 6) Li-Br exchange 7) Heat exchanger replacement (corrosion)

Internal material

Municipal water and silica gel, S 2

Distilled water and lithium-bromide

Hot water working range

Continuously variable, 50°-96°C (122°200°F) or higher; simple automatic shutdown at 50°C (122°F)

Variation must be tightly controlled between 180° and 100°C (212°F) or higher; backup heat required if hot water is below 80°C (175°F) to prevent crystallization

Cooling water working range

Preferably <30°C to 10°C (85°F to 50°F). Lower temperatures increase capacity of the system.

Must be between 18°C (65°F) and 30°C (85°F) using a control valve

Chilled water output

5°-10°C (40°-55°F) is normal

9°C (48°F) or warmer

Frequency of desiccant replacement

N/A

Every 4-5 years

End-of-life

No special disposal requirement

Hazardous materials concerns and disposal procedures required

Adsorption versus Absorption Chiller comparison

product of system inefficiencies found in industrial and commercial process and represents a waste of resources, opportunities and money. Waste heat is commonly generated during: - Steam generation; - Power generation; - Process heating; - Heating and cooling fluids and gases. Why Adsorption is a Better Choice than Absorption? Previous thermally driven chillers have been effective but have been burdened with significant maintenance and upkeep. Absorption chiller systems often depend on a corrosive solution of lithium bromide salt that tends to corrode the internal copper tubing and steel shell of the unit. Additionally, Absorption Chillers produce

hydrogen gas as a by-product, requiring an expensive palladium cell inside the chiller unit to remove the hydrogen. The lithium bromide solution in absorption chillers also has phase state challenges and has a tendency to solidify within the system while operating. If the regeneration temperature becomes too hot or too cold, or the conditions change too rapidly for the system to adapt, the liquid salt will solidify and crystallize inside the chiller unit. Many installations of absorption units require a dedicated caretaker to maintain. Conversely, Adsorption Chillers use municipal water as the refrigerant and solid silica gel as the desiccant. There are no CFCs or freons, no Li-Br, and no ammonia. Not using these chemicals equates to no potential for hazardous material leaks, no aggressive corrosion, no

chemical testing required and no damage to upper-level atmospheric ozone. An Adsorption Chiller significantly reduces the maintenance and upkeep costs by substituting the corrosive salt desiccant with a benign silica gel. Reliability and machine availability are significantly improved. Adsorption Chillers have very few moving parts and do not require the maintenance and attention that the absorption chiller systems require. Why an Adsorption Chiller is a better choice than Mechanical Chiller? Adsorption chillers eliminate noisy compressors, high-pressure refrigerant systems, high amperage electrical connections, refrigerant monitoring and alarm systems, and high maintenance costs. Adsorption Chillers, will provide

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Adsorption Chiller

Mechanical Chiller

Very low <50 db (A)

Loud >80 db (A)

Operating cost

Negligible

High

Maintenance

Virtually none

Seasonal maintenance required. Annual oil analysis. Replace oil every 5 years. Periodic tear down and rebuild required. Replacement of bearings every 15 years

Chemistry

Municipal water and special silica gel-S 2

HFC and HCFC refrigerant with synthetic oils

Energy requirements

Hot water: 50°C to 93°C (122°F to 200°F)

Electricity – 208/230,480 or 4,160 volts

Cooling water requirement

Preferably <30°C to 10°C (85°F to 50°F) Lower temperatures increase capacity of the system

30°C to 18°C (85°F to 65°F) minimum temperature - unstable at low temperatures

End-of-life

No special disposal requirement

Certified technician required to reclaim all refrigerant for release to the atmosphere

Marketing Initiative

Attribute Sound pressure level

Adsorption versus Mechanical Chiller comparison

a 99% reduction electrical usage.

in

How does the Bry-Air Chiller work?

the

chiller's

Adsorption

The principle of adsorption works with the interaction of gases and solids. With adsorption chilling, the molecular interaction between the solid and the

gas allow the gas to be adsorbed into the solid. The adsorption chamber of the chiller is filled with solid material, silica gel, eliminating the need for moving parts and eliminating the noise associated with those moving parts. The silica gel creates an extremely low humidity condition that causes the water refrigerant to evaporate at a low temperature.

As the water evaporates in the evaporator, it cools the chilled water. The Adsorption Chiller has four chambers; an evaporator, a condenser and two adsorption chambers. All four chambers are operated at nearly a full vacuum. The Adsorption Chiller uses a simple refrigeration process. The chiller cycles the adsorption Chambers 1 and 2 between the processes of adsorbing and desorbing. In the figure below, the water vapour flashes off the surface of the tubes in the evaporator, creating the chilling effect captured in the output of chilled water. The water vapour enters Chamber 1 through the open ports in the bottom of the chamber and is adsorbed into the silica gel in Chamber 1. Cool water is circulated in this chamber to remove the heat deposited in Chamber 1 by the adsorption process. Hot water enters Chamber 2 to regenerate or desorb the silica gel while Chamber 1 is in the adsorption process. The water vapour is driven from the silica gel by the hot water. The refrigerant water vapour rises to the condenser portion of the Adsorption Chillers where it is then condensed to a liquid state. The condenser water is recycled in a closed-loop to the bottom of the machine where it is immediately available for re-use.

Bry-Air Adsorption Chiller operating principle

As the machine cycles, the pressure in Chamber 1 is slightly lower than in the evaporator chamber. A portion of the water Chemical Products Finder | October 2015 | 57

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Marketing Initiative

transfer any residual heat to Chamber 1, which begins the heating process. The reversal is completed and the adsorption in Chamber 2 commences while Chamber 1 is dried by the desorption heating.

Industries/applications that generate a steady stream of waste heat as well as have the demand for either chilled air or water include:

The Adsorption Chiller is capable of operating within a wide range of temperatures. The machine self-regulates and balances the performance of the system by the control programs, shifting to the program best suited for the system conditions. For optimal performance of the Adsorption Chillers the hot water should be 90°C (194°F), the cool water about 24°C to 35°C (75°F to 95°F) and the output cold water 7°C to 12°C (45°F to 55°F).

• Power Plants

Silica Gel

The Bry-Air Adsorption Chiller

refrigerant evaporates and moves to Chamber 1. Simultaneously, the pressure in Chamber 2 elevates slightly as the water vapour is driven from the silica gel. The water vapour is then pushed to the condenser chamber where it is condensed back to the liquid state and returns to the evaporator chamber.

Bry-Air, as a global leader in Adsorption technology, has developed a special grade high performance Silica Gel with very high Kinetics.

When the silica gel in Chamber 1 is saturated with water and the silica gel in Chamber 2 is dry, the machine’s process reverses. The first step is the opening of a valve between the two chambers, allowing the pressure to equalize. Then, cool water is sent through Chamber 2 to

The Bry-Air Adsorption Chiller is based on advanced green technology using inert, very special Silica Gel S 2 (adsorbent) and Water (refrigerant) pair. Both Silica gel and water are inert, making them an ideal combination for green technology. Bry-Air Adsorption Chillers are effective as a stand-alone system either as an enhancement to a current HVAC system or a replacement technology to a current chiller system.

• Chemical Industry • Food and Beverage Industry • Petrochemicals and Refineries • CHP The new Bry-Air Adsorption Chiller can convert this waste heat into usable cooling. The current range is 35 kW to 1,180 kW (20 to 335 tonnes) and is manufactured in India by Bry-Air under license from Power Partners, Inc, USA (PPI). PPI markets energyefficient, environment-friendly ECO-MAX Adsorption Chillers that are manufactured in Athens, GA, USA. The smaller range starting of 10 kW to 35 kW is currently under phased release by Bry-Air and can be stacked as modules. In most cases, the Bry-Air Adsorption Chillers pays back in less than 3-4 years. With a life more than 25 years and a lower life cycle cost, the cost of ownership effectively is above half to a one third of the Absorption Chiller. With rising power costs every day, here's your best chance to reduce them permanently. Opt for Bry-Air Adsorption Chillers and use waste heat to cool you. You would love to see savings in your energy bills! And also leave a cleaner and healthier environment for your children. Contact us to learn the Bry-Air MAGIC. bryairmarketing@pahwa.com or visit us at www.bryair.com ◘ For details contact: Ashok Prusty Executive Vice President Bry-Air (Asia) Pvt Ltd Gurgaon, Haryana E-mail: aprusty@pahwa.com & Sonali Dutta Vice President, Corporate Affairs Bry-Air (Asia) Pvt Ltd Gurgaon, Haryana E-mail: sdutta@pahwa.com

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News

Industry News BPCL to Begin Work on Petrochemical Complex

ABCL Completes Acquisition of Jayashree’s Chlor-alkali Division

Mumbai, India: Bharat Petroleum Corporation (BPCL) is ready to begin work on the petrochemical complex in Kochi as it has all the green clearances required and has secured a loan commitment from State Bank of India of ` 4,000 crores. S Varadarajan, Chairman and Managing Director, BPCL, informed that the PSU has all the required permissions from the Union minister and other regulatory authorities for this petrochemical complex worth ` 5,000 crores in Kochi and the product has been scheduled for completion by 2018. He added further that this project is a part of the ` 1 lakh capex planned for the five years of which ` 40,000 crores will be reserved for addition to the refining capacity. This Kochi petrochemical project is a part of the Kochi Refinery’s planned expansion of ` 20,000 crores and was announced in December 2011. The project will put a stop to the country’s dependency on import of specialty propylene derivatives like adhesives, acrylic and acrylates used in plastics, paints, inks, textiles and coatings.

New Delhi, India: Aditya Birla Chemicals Ltd (ABCL) has completed the acquisition of Jayashree Chemicals Ltd’s chlor-alkali division. This division includes a caustic soda manufacturing unit in Ganjam, Odisha and a salt manufacturing facility in Pundi, Andhra Pradesh. A regulatory filing stated that the unit at Ganjam would be renamed as ABCL. Jayashree’s chlor-alkali division has 57,000 tonnes per annum capacity at Ganjam. The company has salt works in Andhra Pradesh of 1,600 acres. Last year in September ABCL had stated that it would acquire Jayashree Chemicals Ltd’s chlor-alkali division for ` 212 crores cash consideration.

Grundfos Launches Knowledge Hub for Pumping Solutions Chennai, India: Grundfos Pumps India Pvt Ltd (Grundfos India), recently launched the Grundfos for Engineers website. This site provides knowledge, training and guidance for all pumping solutions with a specific focus on Buildings, Water Utilities and Industries. It is a complete guide that addresses the daily challenges of consulting engineers and system designers. Grundfos for Engineers is an ideal platform to find pump systems knowledge quickly, and provides an opportunity for engineers to optimise specification tasks promptly. This website also provides source materials, references and successful case studies. For example, a simple sizing tool available in the website allows engineers to enter duty points and then search for matches by application, pump design or family of pumps. The decision making also becomes easy through a huge range of downloadable product and application guide and video insights from experts. To know more about the website and its offerings, please visit http://in.grundfos. com/grundfos-for-engineers.html. To continuously enrich their knowledge and to keep up with the global trends, engineers can take course modules at their own pace from this website through an innovative and free online training platform, ‘Grundfos Ecademy’ where completion of every course module will count towards their professional accreditation.

Pidilite’ Construction Chemicals Sets a Target of ` 900 Crores Chennai, India: Pidilite’s Construction Chemicals Division is set to reach revenue close to ` 900 crores in the present financial year. While speaking at the formal inauguration of the first Dr Fixit Experience Centre, Sanjay Bahadur, Global CEO, Construction Chemicals, Pidilite Industries stated that the company would see revenues of about ` 900 crores this financial year. He added that the division would witness a CAGR of 25 per cent. When asked about the outlook for exports, he said that exports accounted for about 10 per cent of the division’s revenue and the division is faring well in Singapore and Thailand. The company is looking to tap the emerging Asian and African markets.

KRIBHCO to Invest ` 1,000 New Delhi, India: Krishank Bharati Co-operative Ltd, (KRIBHCO) will be setting up a phosphoric and potassic fertiliser plant, an investment of ` 1,000 crores, in Andhra Pradesh at Krishnapatnam. This is the first time KRIBHCO would be setting up a P&K fertiliser plant which would produce only urea. Chandra Pal Singh, Chairman, KRIBHCO stated that Andhra Pradesh offers a host of benefits to KRIBHCO amounting to ` 500 crores. The plant’s annual capacity would be 6 lakh tonnes and this project would be operational in about 4-5 years. Singh also added that the second phase of the project would see capacity being increased top 1.2 million tonnes.

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News

Technology News Scientists Paint Quantum Electronics with Beams of Light Chicago, USA: A team of scientists from the University of Chicago and Penn State University has accidentally discovered a new way of using light to draw and erase quantum-mechanical circuits in a unique class of materials called topological insulators. In contrast to using advanced nanofabrication facilities based on chemical processing of materials, this flexible technique allows for rewritable ‘optical fabrication’ of devices. This finding is likely to spawn new developments in emerging technologies such as low-power electronics based on the spin of electrons or ultrafast quantum computers. “This observation came as a complete surprise. It is one of those rare moments in experimental science where a seemingly random event-turning on the room lights-generated unexpected effects with potentially important impacts in science and technology,” said David D. Awschalom, the Liew Family Professor and deputy director in the Institute of Molecular Engineering at UChicago, who was one of two lead researchers on the project. Read more about the research on news.uchicago.edu

Toward Clearer, Cheaper Imaging of Ultrafast Phenomena Washington, USA: Many mysteries of nature are locked up in the world of the very small and the very fast. Chemical reactions and material phase transitions, for example, happen on the scale of atoms — which are about one tenth of one billionth of a metre across — and attoseconds — which are one quintillionth (10^-18) of a second long. A research team from Massachusetts Institute of Technology (MIT), in collaboration with the Singapore Institute of Manufacturing Technology (SIMTech), have proposed a new technique that may help record better images of such ultrafast phenomena. Ultrafast electron pulses are one tool scientists use to probe the atomic world. When the pulses hit the atoms in a material, the electrons scatter like a wave. By setting up a detector and analysing the wave interference pattern, scientists can determine information like the distance between atoms. Conventional electron pulse technology uses a static magnetic field to compress the electrons transversely. However, the static field can interfere with the electron source and the sample and lead to temporal distortion of the electron pulses both of which can lead to lower quality images. Read more on the research at www.osa.org/en-us/

Low-cost wafers for solar cells Freiburg im Breisgau, Germany: Silicon wafers are the heart of solar cells. However, manufacturing them is not cheap. Over 50 per cent of the pure silicon used is machined into dust. A new manufacturing technique developed by Fraunhofer researchers puts an end to these material losses, with raw material savings of 50 per cent along with an 80 per cent reduction in energy costs. A key component of solar cells are thin silicon wafers. The manufacture of these wafers is very time and energy consuming, and correspondingly expensive. What is more, around half of the silicon is lost during production of the wafers. This is not the case with the new process developed by researchers at the Fraunhofer Institute for Solar Energy Systems ISE in Freiburg. “With our method, we can avoid almost all of the losses that occur during the conventional production process. This means we are reducing material losses by 50 per cent while using 80 per cent less energy,” says researcher Dr Stefan Janz at the ISE. Another advantage of the new process is that it allows the wafers to be made as thin as desired. With the conventional process, the silicon wafers must be at least 150 to 200 micrometres thick, as otherwise the cutting losses would be too high. The thinner the wafer, the cheaper the solar cell. Read more on www.fraunhofer.de/en/press/research-news

Single Atom Alloy Platinum-Copper Catalysts Boost Green Technology Massachusetts, USA: A new generation of platinum-copper catalysts that require very low concentrations of platinum in the form of individual atoms to cleanly and cheaply perform important chemical reactions is reported by Tufts University researchers. The Tufts researchers discovered that dispersing individual, isolated platinum atoms in much less costly. Copper surfaces can create a highly effective and cost-efficient catalyst for the selective hydrogenation of 1,3 butadiene, a chemical produced by steam cracking of naphtha or by catalytic cracking of gas oil. Butadiene is an impurity in propene streams that must be removed from the stream through hydrogenation in order to facilitate downstream polymer production. The current industrial catalyst for butadiene hydrogenation uses palladium and silver. Copper, while a relatively cheap metal, is not nearly as catalytically powerful as platinum, noted Professor of Chemistry Charles Sykes, Ph.D., one of the senior authors on the paper. The Tufts chemists used a specialised low temperature scanning tunneling microscope to visualise the single platinum atoms and their interaction with hydrogen. Know more on now.tufts.edu/news-releases/

60 | October 2015 | Chemical Products Finder

Technology News.indd 60

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The following list is a brief insight into the latest new projects by various companies in India. CHEMICALS Globex Laboratories (R&D) proposes a pigments manufacturing unit at village: Dabhasa, district: Vadodara, Gujarat. According to MoEF sources, the project will come up in the existing land on 9,312 sq m. Kadam Environmental Consultants, Vadodara is the environmental consultant. The project will entail manufacture of 40-TPM red pigments, 40-TPM yellow pigment and 450-TPM dilute phosphoric acid. Environment clearance has been obtained for the products – red pigments and yellow pigments. Construction work has begun, as EC and NOC have been received. Effluents generated will be treated in effluent treatment plant having MEE. The company has applied for Amendment in Environmental Clearance dated 26th September 2012 for change in fuel from LDO to agro waste briquettes and addition of one raw material, ie, phosphoric acid and generation of dilute phosphoric acid (25 per cent basis) as by-product. Bohra Industries is implementing an expansion of its chemical and fertilizer manufacturing unit at Umarda, district: Udaipur, Rajasthan on 14,500 sq m of existing land. The project will entail expansion of single super phosphate capacity from 400-TPD to 600-TPD, granulated super phosphate from 200-TPD to 300-TPD and addition of new products namely 150-TPD triple super phosphate, 550 -TPD synthetic gypsum, 30-TPD di-calcium phosphate, 160-TPD phosphoric acid, 0.3-TPD potassium fluoride, 150-TPD H 2SO4 and 0.3-TPD Sodium Tri Polyphosphate (STPP). Machinery has been ordered from China. Civil work is in progress. The project is scheduled for completion in 2018. Ami Lifesciences proposes expansion of its synthetic organic chemicals manufacturing unit (viz, pharmaceutical bulk drugs and drug intermediates) from 65.70-TPM to 131.60-TPM in Padra, district: Vadodara, Gujarat. The estimated cost of the project is ` 87.046-million. Environmental Consultant to this project is Envisafe Environment Consultants. According to MoEF sources, total plot area is 23,760-sq m (existing 10,270-sq m and 13,490-sq m for expansion). The unit currently manufactures 2-TPM 1-Acetyl Naphthalene, 1-TPM 2-Acetyl Naphthalene, 6-TPM itopide HCl, 1.20-TPM loxapine succinate, 0.30-TPM amoxapine, 6-TPM venlafaxine, 6-TPM progunil HCl, 6-TPM CB-2-L-Valine, 0.60-TPM nateglinide, 0.60-TPM quetiapine, 24-TPM carbomazepin and 12-TPM oxacarbomazepin. The expansion will involve addition of new products. Water requirement from ground water source will be increased from 34.53-cu m/day to 181-cu m/day after expansion. Effluent generation will be increased from 9.35-cu m/day to 79.5-cu m/day after expansion. Highly concentrated effluent will be sent to captive incinerator for incineration. Remaining effluent (70-m 3/day) will be treated in the ETP comprising primary, secondary and tertiary treatment. Treated effluent will be sent to CETP for further treatment. ETP sludge, inorganic residue and incineration ash will be sent to TSDF. Spent carbon, organic residue will be sent to incinerator.

Astrica Laboratories is implementing a 240-TPA synthetic organic chemicals manufacturing project at a cost of ` 78.8-million in village: Ananthsagar, district: Medak, Telangana. Team Labs & Consultants are the environmental consultants. The project will come up on 6.97-acre of land. According to MoEF sources, it is proposed to treat all HTDS effluent in stripper followed by MEE and ATFD. All LTDS effluent including domestic effluent shall be treated in biological treatment followed by RO system. RO rejects sent to MEE and permeate is used for cooling towers as make up. Solid wastes are generated from the process, solvent distillation, collection/ neutralization tank, waste oil from DG sets, used batteries from DG sets. The ash from boiler is sold to brick manufacturers. The solid wastes; evaporation salts, wastes from the process in inorganic form, ie, process salts and filtration aids shall be disposed to the TSDF, while the hazardous wastes of organic nature, ie, distillation residues shall be disposed to authorized cement units and other wastes like used oil and used batteries shall be sent to authorized recyclers. The sludge from treatment plant shall be sent to TSDF. The basic technology involved in the manufacturing of bulk drugs is the process kettles, heat exchangers, centrifuges and storage tanks. To support the process, equipment boilers, chilling plants, cooling towers, etc, are required. All the above equipment can be sourced indigenously. 80 per cent of civil work has been completed and remaining 20 per cent is in progress. The project is scheduled for completion in December 2015.

Project Update

New Contracts/Expansions/Revamps

Adi Finechem is planning a 40-TPA specialty products manufacturing project on a 2-acre land at an estimated cost of ` 400-million in village: Chekhala, district: Ahmedabad, Gujarat. The project is waiting for environmental clearance. RSPL is planning a 1,500-TPD soda ash plant and 40-MW captive power project in village: Kuranga, district: Jamnagar, Gujarat. Land acquisition is in progress. 85 per cent of land has been acquired. The project is waiting for environmental clearance. The entire project is planned for completion in 5 years from zero date. Superhouse is planning an expansion of its chemical mixmanufacturing project from 200-kg/day to 500-kg/day in UPSIDC Industrial Area, district: Unnao, Uttar Pradesh. The product will be used in leather tanneries. The project will involve installation of containers. The project is in planning stage. Stellar Chemical Laboratories is planning an expansion of its organic chemical manufacturing project from 7.1-TPM to 84.1-TPM in village: Derol, district: Panchmahals, Gujarat. Machinery is yet to be ordered. Work on the project is expected to commence after receipt of environmental clearances and the completion date is yet to be finalized. Chemical Products Finder | October 2015 | 61

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Project Update

MINING Aryan Ispat & Power is planning an expansion of its coal washery in village: Bamoloi, district: Sambalpur, Odisha. The project will come up in the existing 204.65-acre integrated steel plant premises. The capacity of the project is to be augmented from 0.70-MTPA to 5.70-MTPA. The cost of the project is ` 600.7 million. The project is awaiting environmental clearance and planned for completion in 1-year from zero date. According to MoEF sources, the expansion is based on heavy media cyclone (wet process) technology. The washery will produce washed coal of an average ash around 34% (GCV 4,350-Kcal/kg), middling (ash content about 58%) of GCV around 2,350-Kcal per kg useable as fuel in FBC boilers. The proposed expansion will be the stateof-the-art with close circuit water system, classifying cyclone, high frequency screens, thickener and multi-roll belt press filters. Power requirement of 5-MVA will be sourced from its own power plant connected with the Grid Corporation of Odisha. NTPC is planning the Kudanali-Luburi coal mining project in district: Angul, Odisha. The company has signed an agreement on June 15, 2015 with Jammu and Kashmir State Power Development Corporation (JKSPDCL) for promoting a joint venture company with 67:33 equity participation for undertaking exploration, development and operation of jointly allocated Kudanali-Luburi Coal Block at Odisha by the Ministry of Coal. DSP Associates is planning a 15,17,600-TPA sand (minor mineral) mining project in the mines of Tikola-1 Sand Unit at village: Tikola, district: Gurgaon, Haryana. Mining lease area is 42.50-hectare. The estimated cost of the project is ` 55-million. The project is waiting for environmental clearance. Mining work is expected to commence in December 2015. According to MoEF sources, out of the total area, 31.50-hectare area falls in the river bed and 11-hectare area falls in agricultural land (outside river bed). Method of mining will be opencast semi-mechanized without drilling and blasting. The mine will be excavated out in layers up to a depth of 3-m in riverbed and 9-m in agricultural field. Letter of Intent (LOI) for mining contract has been granted for a period of 9 years. Barmer Lignite Mining Company, a JV between Rajasthan State Mines & Minerals & Raj West Power, a subsidiary of JSW Energy is planning an expansion of the Kapurdi Open Cast Lignite Mining project from 3.75-MTPA to 7-MTPA in Kapurdi, district: Barmer, Rajasthan at an estimated cost of ` 18,000-million inclusive of a new lignite mining project at Jalipa mines. The project is waiting for environmental clearance. NON-CONVENTIONAL ENERGY Hubli Electricity Supply Company is planning solar RTPV grid connected power plants in district: Belagavi, Karnataka. E-tenders have been floated to design, manufacture, supply, installation,

testing and commissioning of solar RTPV grid connected power plants on the roof-tops of 31 of HESCOM office buildings in Belagavi Zone Jurisdiction for total load of 136-KWp including operation and maintenance for a period of five years. The approximate amount put to tender is ` 18.62-million. Karnataka Renewable Energy Development is planning a 10-MW solar power project at an estimated cost of ` 600-million (approximately) in village: Tingloor, taluka: Madhugiri, district: Tumkur, Karnataka. Surana Telecom And Power has received Letter of Award (LoA) for development of the project. Maharashtra State Power Generation Company is planning a 50-MWp solar photo voltaic power project in Gangakhed, district: Parbhani, Maharashtra. The company is scouting for land. Other details are yet to be finalized. Azure Power India is implementing a 10-MW solar photovoltaic power project in taluka: Hiriyur, district: Chitradurga, Karnataka. PPA has been signed with Bangalore Electricity Supply Company (BESCOM). Civil work and panel installation work is in progress. Government of Odisha is planning a 20-MW solar power plant in Manmunda, district: Boudh, Odisha. Green Energy Development Corporation of Odisha is the nodal agency. According to reports, the nodal agency has identified about 120-acre of land at Manmunda for establishment of the project. The land has been allotted to the agency from the industrial park area earmarked by Odisha Industrial Infrastructure Development Corporation (IDCO).The EPC tender is for development of the power plant and maintenance for a period of 10 years. Apart from the Boudh project, the agency is in the lookout for additional land in Koraput, Kantamal and Bolangir areas for installing about 200-MW solar energy capacity. ACME Solar Energy is planning a 30-MW solar photovoltaic independent power project at a cost of ` 2.4-billion in Chhattisgarh. The company is a JV between ACME Cleantech Solutions, EDF Energies Nouvelles (EDF EN) and EREN, Luxembourg. PPA is yet to be signed with Chhattisgarh State Power Distribution Company (CSPDCL). The project is in planning stage. The project is planned for completion in 1-year from zero date. NON-CONVENTIONAL POWER BMS Starch, a part of the BMS Group, is implementing a 6-MW biomass-based co-gen power plant in village: Kurandi, district: Bastar, Chhattisgarh. The project is coming up along with a starch manufacturing unit on 26-acre of acquired land at a total estimated cost of ` 1,350 million. Equipment supplier is yet to be appointed. Civil work is in progress. The project is expected to be completed by 2016.

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industrial products, plant, machinery and equipment industries.

Dates: 21-23 January 2016 Venue: Bombay Convention & Exhibition Centre, Mumbai Event: Waste Technology India Expo 2016 is a 3 day event to be held in Mumbai. This event showcases product from the biotechnology industry.

For details contact:

Plastics Recycling Show 2015

Future Communications Manorathâ, 124 Lokmanya Nagar, Kesharbaug Road Indore, Madhya Pradesh 452 009

Dates: 25-26 November 2015 Venue:The Tour & Taxis Venue, Brussels, Belgium Event: PRS will feature a pan European exhibition and multiple conference streams designed specifically for the plastics recycling industry.

For details contact: Virtual Info Systems Pvt Ltd 231, Mastermind-1, Royal Palms Mayur Nagar, Aarey Milk Colony Goregaon (E), Mumbai

Indian Metal - Cutting Machine Tool Exhibition Dates: 21-26 January 2016 Venue: Bangalore Intl Exhibition Centre, Bengaluru, Karnataka Event: Indian Metal - Cutting Machine Tool Exhibition is a 6 day event to be held in Bengaluru. This event showcases products like presence of machines and tools, metal cutting technologies, metal cutting tools and metal repairing parts and services, heavy machinery tools, machine designs, latest technologies in metal cutting and much more in the hand, machine and garden tools industry. For details contact: Indian Machine Tool Mfrs’ Assn Bangalore Intl Exhibition Centre 10 th Mile, Tumkur Road, Madavara Post Bengaluru, Karnataka

Pumps, Valves & Systems Expo Dates: 29 January - 1 February 2016 Venue: Labhganga Exhibition Center, Indore, Madhya Pradesh Event: Pumps, Valves & Systems Expo is a 4 day event to be held in Indore. This event showcases products like mechanical seals, processing equipment including mixers and stirrers, instrumentation and automations and many more related products and services, in the

ChemTECH Chennai 2015 Dates: 10-12 December 2015 Venue: TNTPO, Exhibition Ground, Chennai E v e n t : Wo r l d m e e t o f c h e m i c a l s , petrochemicals, pharma and process industry in India encompassing exhibition and conferences.

INTERNATIONAL

Forthcoming Events

Waste Technology India Expo 2016

For details contact: Plastics Recyclers Europe Avenue de Cortenbergh 71 1000 Brussels, Belgium Tel: +32 2 742 96 82 Fax: +32 2 732 63 12

Chem Show ChemTECH Gujarat 2016 Dates: 10-12 February 2016 Venue: Gujarat University Exhibition Hall, Ahmedabad Event: The ChemTECH World Expo is a fair that is dedicated to the chemical industry and stands apart by the presence of laboratory chemicals, specialty chemicals, organic and inorganic chemicals, agrochemicals, chemical products and compounds, polymers, chemical processes and equipment, chemical manufacturing and all services associated with it. The fair aims to revolutionize the chemical industry and includes all that is connected with biotechnology, e n v i r o n m e n t a n d p h a r m a c y. I t i s considered as the second largest global event for the chemical processing industry, etc, in the chemicals and dyes industry. For details contact: Jasubhai Media Pvt Ltd Taj Bldg, 3 rd Floor, 210 Dr D N Road Fort, Mumbai 400 001 Tel: 022-40373636, Fax: 91-022-40373635 E-mail: sales@jasubhai.com / conferences@jasubhai.com

Dates: 8-10 December, 2015 Venue: Jacob K Javits Convention Center, NY, USA Event: The Chem Show gives you direct access to equipment, systems and services by the CPI’s most innovative suppliers companies who can help you improve product quality, lower operating costs and increase efficiency. For details contact: International Exposition Co 15, Franklin, Westport, U.S.A.

European Coatings Show Dates: 4-6 April 2017 Venue: Nuremberg Exhibition Centre, Nuremberg, Germany Event: This event showcases products like coating raw materials, binders, solvents, pigments, fillers, additives, printing ink raw materials, adhesive raw materials, polymer dispersions, intermediates for construction chemicals, raw materials, additives and admixtures, laboratory and production equipment, testing and measuring equipment, plant and machinery, spray systems, drying and curing plant, environmental protection and safety at work, etc. in the chemicals and dyes industry. For details contact: NurnbergMesse GmbH Messezentrum, 90471 Nuremberg, Germany

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Bookshelf

INTEGRATED WATER RESOURCES MANAGEMENT Author: M M Sarbhukan Price: ` 180.00 No of pages: 229 pages (Paperback) Publisher: CBS Publishers & Distributors; 1 st Edition About the book: This book is intended to create awareness amongst water users, scientists, professionals and planners to understand this life-sustaining resource with a vision to conserve water resource and use it judiciously. All these aspects have been discussed and covered in different chapters to achieve the objectives laid down in the National Water Policy 2002. The book will be of special interest to students and teachers of courses in ecology, hydrology, geography, geology, civil engineering, architecture and town planning, focussing on planning and harnessing the water resource.

STEAM PLANT OPERATION Authors: Everett B Woodruff and Herbert B Lammers Price: ` 6,040.00 No of pages: 736 pages (Hardcover) Publisher: McGraw-Hill Professional; 9 th Edition About the book: This book has been a trusted source of information on steam power plants, including the design, operation, and maintenance of major systems. Steam Plant Operation, 9 th Edition, emphasizes the importance of a comprehensive energy plan utilizing all economical sources of energy, including fossil fuels, nuclear power and renewable energy sources. Wind, solar and biomass power are introduced in the book, and the benefits and challenges of these renewable resources for the production of reliable, cost-effective electric power are identified. Even with these new technologies, approximately 90% of electricity is generated using steam as the power source, emphasizing its importance now and in the future. In-depth details on coal-fired plants, gas turbine cogeneration, nuclear power, and renewable energy sources are included, as are the environmental control systems that they require. Potential techniques for the reduction of carbon dioxide emissions from fossil fuel–fired power plants also are presented. This practical guide provides common power plant calculations such as plant heat rate, boiler efficiency, pump performance, combustion processes, and collection efficiency for plant emissions. Numerous illustrations and clear presentation of the material will assist those preparing for an operator’s license exam. In addition, engineering students will find a detailed introduction to steam power plant technology.

PUMP CHARACTERISTICS AND APPLICATIONS Author: Michael Volk Price: ` 6,618.00 No of pages: 516 pages (Hardcover) Publisher: CRC Press; 3 rd Edition About the book: Pump Characteristics and Applications, 3 rd Edition details how pump equipment is selected, sized, operated, maintained, and repaired. The book identifies the key components of pumps and pump accessories, introduces the basics of pump and system hydraulics as well as more advanced hydraulic topics, and details various pump types, as well as special materials on seals, motors, variable frequency drives, and other pump-related subjects. It uses example problems throughout the text, reinforcing the practical application of the formulae and analytical presentations. It also includes new images highlighting the latest generation of pumps and other components, explores troubleshooting options, and incorporates relevant additions into the existing chapters.

PRACTICAL BOILER OPERATION ENGINEERING AND POWER PLANT Author: Amiya Ranjan Mallick Price: ` 489.00 No of pages: 576 pages (Paperback) Publisher: PHI; 3 rd Edition About the book: This book is a comprehensive presentation of the fundamental aspects of various processes operated in a thermal power plant. The major thrust in the book is given on the hands-on procedure to deal with the normal and emergency situations during plant operation. Beginning from the fundamentals, the book explores the vast concepts of boilers and steam turbines along with their operation. Following a simple text format and easy-to-grasp language, the book explicates various real-life situation related topics involving commissioning, maintenance, control and instrumentation of a power plant. Dealing with all the latest coverage, the book is written to address the requirements of the undergraduate students of power plant engineering. Besides this, the text would also cater to the needs of those candidates who are preparing for Boiler Operation Engineers (BOE) Examination and the students of postgraduate diploma course in thermal power plant engineering.

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Product Index

Product Index

Product Index A

N

Absorption Chillers

35

New Solstice Refrigerants

35

Agitated Nutsch Filter/Dryer

32

Next Generation PURON MBR

37

AODD Pump

27

O

B Barrel Pumps

24

Oil-lubricated Vacuum Pumps

28

OMAC Industrial & Sanitary Lobe Pumps

28

Online Measurement of Sulphuric Acid Concentration

30

P

C Canned Motor Pump

26

Chemical Plant

31

Chemical Processing Equipment

31

Chemical Processing Machinery

31

Coke Oven Waste Water Treatment

37

Corrosion-resistant Beacon, Horn & Combination Units

39

D Duplex Vacuum Plodder

31

Duplex Vacuum Plodder

31

Pocket pH Tester HI 98100 Checker Plus

30

Pool Test Application Instrument

30

Pressure Nutsche Filter

32

Production Spray Dryer

36

R Remote Service Portal

34

Resolute Chromatography Columns

29

RPS Endurance Inverters

33

Rugged HMIs

38

S

H

Silicone Rubber Sheet

Heat of Compression Type Dryer

36

High-performance Doors

34

I

39

T Transfer Finned Type Heat Exchangers

Liquid CO 2 Storage Tanks

34

Lutz AODD Pumps

26

Lutz Drum Pumps

24

M

35

W Water Treatment System

37

Water-cooled Refrigerated Air Dryers

36

Waterproof pH 450 and CON 450 Meters

29

Welded Pipes & Tubes

27

Magnetic Float Switch

39

WFI Unit Reduces Energy Consumption

32

Multistage Vertical In-line High-pressure Pumps

24

Wire Harness Engineering

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Sr.

Company Name

1 2

Arvind Anticor Ltd C Bole & Co

3 4 5

Dalal Engineering Pvt Ltd Dipflon Engineering Co Emjay Engineers

Inside Cover I 3 23

6 7 8 9 10 11 12 13 14

Mist Resonance Engg Pvt Ltd R K Dutt Concerns Shachi Engineering Pvt Ltd Shanbhag & Associates Shavo Technologies Pvt Ltd Uni Klinger Ltd UNP Polyvalves (India) Pvt Ltd Verder Ltd Chemtech Events

11 25 9 7 17 15 Inside Cover II 5 Back Cover

ADVERTISE TO EXPAND your reach through

Page No. 23 25

INSIGHT INTO THE PHARMACEUTICAL AND BIOTECH INDUSTRIES

Indices

Advertisers’ Index

Jasubhai Media Pvt. Ltd.

For Details Contact

Jasubhai Media Pvt. Ltd. Taj Building, 3rd Floor, 210 Dr D N Road, Fort, Mumbai - 400 001 Tel: 022-4037 3636, Fax: 022-4037 3635 Email: industrialmags@jasubhai.com

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Chemical Products Finder | November 2013 | 57


R.N.I. No. 39849/82. Date of Publication: 23rd of every month. Postal Registration No: MCS/096/2015-17 Posted at Patrika Channel Sorting Office, Mumbai 400001, on 23rd & 24th of every month.Total Page No: 68


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