Hisaka plate heat exchanger by Digital Solutions KSA

HE-CE000215 14.12.1000.SAN

WORLD LEADER IN THERMAL ENGINEERING As a specialist in thermal engineering with world wide presence, our vision is to promote the rational use of thermal energy. We have been developing versatile high performance products through the years of experience in the design and manufacturing of our Plate Heat Exchangers using innovative and leading technology.

Markets and Applications

Challenging rationalization of thermal energy.

Hisaka Works, Ltd. / Konoike Plant

HISAKA Plate Heat Exchangers are used for heating, cooling, heat recovery, heat exchanging, condensing, sterilization, etc. Our heat exchangers are successfully installed in all major industries such as chemical, food, steel, pulp & paper, industrial machinery, automobile, oil refinery, textile, ship, air conditioning and power plant. HISAKA Plate Heat Exchangers have always played a major role in thermal engineering as well as an energy saving equipment.

Global Network Original proprietary technology to overseas. Since we started in 1953, a wide range of Plate Heat Exchangers have been developed, designed and manufactured using our own original technology and engineering. We have since then exported â&#x20AC;&#x153;plate production technologyâ&#x20AC;? to many foreign licensees. On the other hand, worldwide supply network through representatives and our subsidiaries such as Malaysia, Thailand, Singapore, Indonesia, Vietnam, Philippines, China, Korea and Saudi Arabia has been also established.

PHE Assembly Shop

Effective utilization of resources, energy-saving and high production efficiency. That's the Heat Exchanger Division's concept of research and development.

Quality Assurance Well established QMS conforming to ISO9001. We conform to the most stringent quality assurance program as demanded by our international clients. Our products meet with the highest engineering standards and of the highest quality. As such, we conform to various international standards such as ASME, JIS, CE, etc.

CONTENT

Health, Safety and Environment 03

SEMI WELDED PLATE

CONDENSING PLATE

WEB SIMULATOR

NETWORK

We, HISAKA, take a proactive stance in Health, Safety and Environment issue conforming to ISO14001.

The World largest class 40,000ton Press machine

The cutting-edge full automatic 20,000 ton Press machine

The career 20,000 ton Press machine

The latest 4,000 ton high speed automatic precision Press machine

PLATE HEAT EXCHANGER External Structure

Flow of Fluid and Heat Exchange Mechanism

The heat transfer plates are thin sheets of corrosion resistant metal such as stainless steel or titanium that are press-formed with a corrugated pattern on the surface and sealed with synthetic rubber gaskets, which seals the flow channel and directs the fluid into alternate channels. Such plates are suspended, supported and aligned by guide bars and tightened by bolts between a fixed and a movable frame. The equipment can adjust the number of plates so as to meet the heat duty.

Heat transfer A and B-plates are of identical pattern. One simply turned upside-down becomes to the other so as to obtain a different flow channel by the gasket line. Further, by the start plate (D-plate) having its portholes with double seal gaskets and the blind last plate (E-plate), the construction is such that the fluids do not directly contact the frames.

Construction Plate Heat Exchanger

S-Frame

E-Frame

The fixed frame. Pressure retaining part to the internal pressure.

The movable frame. Similar function to the S-Frame plate, but hung on the upper guide bar and movable.

D-Plate

A-Plate

B-Plate Upper Guide-bar E-Frame Guide-bar Support

Upper Guide-bar

Nozzle

Suspends the plates and EFrame plate. At the same time functions as a positioning rail.

The connection to piping. The stud bolts are located around the connection. Rubber and Metal are available.

Tightening Bolts/Nuts Tighten the S- and E-Frames, pressing the plates and gaskets together, to seal the fluids.

Plate with Gasket The heat transfer plates are designed with a variety of raised areas and channels to ensure strength and increase the heat transfer area. In addition, a gasket seals fluid in the channels around the plates.

Lining

Guide-bar Support E-Plate

Third leg that supports the rear ends of the top and bottom guide bars.

Lower Guide-bar

Base Plate

Rail that serves to position the bottom edges of the plates and E-Frame.

Fixed firmly the foundation by anchor bolts.

S-Frame Tightening Bolts/Nuts

NOZZLE SECTION

J TYPE

for small number plates

P TYPE

for large number plates (with Guide-bar Support)

Boot

Boot 04

FEATURES Heat Transfer Plates

Wide Application Range

Each heat transfer plate is corrugated to various patterns to increase its strength and heat transfer area. Furthermore, the corrugation creates high turbulence and thereby achieve high heat transfer coefficient. The plate is provided with passage hole on each corner. Each plate is tight-sealed with a gasket fitted in its peripheral groove.

Capability range Operating pressure Operating temperature Surface area Plate materials

Hanger Port Hole Double Seal Heat Transfer Part

Distribution

Other materials Gasket materials

Gasket

Prevention of Liquid Inter-mixing

: 0.1m /h to 5,000m /h : 4.0MPaG max. : 180˚C max. : 0.18m2/unit to 2,500m2/unit : Stainless steel, Titanium, High Nickel alloy, Nickel : Conforming to the Japanese and in ternational standards as applicable. : NBR, EPDM, IIR, FPM, Silicone, TCG, etc. 3

Special consideration is taken into the gasket so as to protect it from direct attack by liquid. Furthermore, the gasket is of double-seal type so as to permit liquid draining outside the exchanger even in a case of liquid leak caused by its deterioration.

High Performance The overall heat transfer co-efficient (U-value) ranges from 4,000 to 9,000 W/m2·˚C in water application, since the plate corrugation provides high turbulent flow. This is one of the reasons why plate heat exchanger performs so high heat transfer coefficient. In addition, this turbulent flow also acts to prevent scales from the plate surface.

Flow Channel The plates are divided into A-plate and B-plate, and a passage is formed between these plates. The high temperature fluid flows alternately and in the opposite direction of the other fluid. Thus high efficient transfer of heat is achieved

through these plates. A-plate when reversed would become B-plate. As such only one type of plate can be used as A-plate and B-plate for most models.

Easy Maintenance The plate heat exchanger can be easily opened for inspection and maintenance by loosening the tightening bolts and nuts. Assembly and opening of the unit are also easily performed.

Cold side outlet

Hot side inlet

Steam Available as Heat Source The use of synthetic rubber gasket of special composition permits to use steam as heat source, i.e operating temperature range up to 180˚C maximum. Cold side inlet

Hot side outlet

Less Installation Space

Front View

The lightweight and compact construction saves the installation space to 1/4 and the weight to 1/3 of shell & tube heat exchanger respectively. In addition, lightweight and thin heating plate with less liquidhold facilitates the installation work. The Plate Heat Exchanger can be disassembled for cleaning without piping work, while the shell & tube heat needs a additional space for drawing out the tube bundle.

Side View

Pass Design With single-pass design, all of the connections are made on the fixed frame side only. This simplifies piping work and increases layout flexibility. With a multi-pass design, connec-

tions are located on both the S-Frame (fixed-frame) and EFrame (movable-frame) sides making it necessary to remove and adjust the piping.

E-Frame

Two fluids temperature difference up to its extremely close... The construction which permits heat exchanging in perfect counter-current flow with very high heat transfer efficiency makes it possible to approach the temperature difference between hot and cold fluids up to 1˚C and less.

S-Frame S-Frame

Single-pass Design 05

It is necessary to remove the connected piping when disassembling the unit.

Multi-pass Design 06

PLATE

GASKET

The plates are specially selected from various patterns so as to achieve optimum area and cost effective heat exchanger for eachunit. These plates can be classified into three patterns, namely. 1. Herringbone pattern such as LX-, UX-, RX-, WX-, and SX-series 2. Wash board pattern such as EX-series 3. Special wave pattern such as GX-, and YX-series

1. Versatile gasket HISAKA Plate Heat Exchanger is used in almost all process industries, as such the gaskets are specifically selected based on the operating condition. A wide range of gaskets are available such as NBR, EPDM, IIR, FPM, Silicon, etc. ●Special Hisaka (S-1) glue shall be applied for bonding

1. Herringbone pattern

The herringbone design in LX-series has corrugations with pitch which is rough and deep. In SX-series, the pitch is fine and shallow, hence LX-series are used in application where low NTU is required, and SX-series are best suited for high NTU application. UX/RX-series is in between LX-series and SX-series.

NTU =

Hot temp in−Hot temp out

NTU : Number of heat Transfer Unit LMTD : Logarithmic Mean Temp. Difference

LMTD

2. Glue-free gasket slit-in type NTU of 1.5 and less is generally referred to as low NTU, and 3.0 and above is considered as high NTU

LX-series

UX / RX-series

SX-series

Even in the same series, the heat transfer characteristic is different due to plate pattern angle. H plate is suited to high NTU, while L plate to low NTU. When the plates corrugated in H plate and L plate can be mixed together in a unit, intermediate thermal characteristics can be achieved.

These plate gaskets do not need adhesive. The slit-in gasket is especially recommended for those applications where frequent replacement of the gasket is required. Further, without the adhesives, adhesive odor is reduced. This slit-in type gasket is suitable for such as water treatment Food application.

3. PTFE Cushion Gasket (TCG) Through our own development, HISAKA has pioneered PTFE Cushion Gaskets for the Plate Heat Exchanger. It is normally used in applications where conventional synthetic rubber would have limitations due to the corrosiveness of the fluid being handled. With this new development, the Plate Heat Exchangers can be applied in much wider field than before due to the chemical resistance and the durability of PTFE. ●Special double adhesive tape shall be applied for bonding

Features

H plate

L plate

Mixed arrangement

2. Wash board pattern

3. Special pattern

As this type of plate gas less metal contact, it is normally applied to fluids containing fibers, particles or sludge. We have EX-series.

YX plate is used exclusively for vapor condensation. (See Page 14)

1. Excellent chemical resistance against most chemical especially organic solvent. 2. Due to the elastic core of the TCG gasket, it does not require strong tightening torque during the assembly of the unit. Thus reducing the risks of plate deformation due to over tightening. 3. TCG gasket can be used for one side only, if the non-corrosive fluid is running in the other side where conventional gasket can be used.

Synthetic rubber

Synthetic rubber TCG

TCG

Plate Atmosphere side

Liquid contacting side Synthetic rubber PTFE

GX plate is developed for heat transfer of fluids containing much slurry or high viscosity liquids. (See Page 15)

PLATE HEAT EXCHANGERS VARIATION Connection Dia mm inch

Model

Max Heat Transfer Area m2

H mm

W mm

LX-50

LX-01 LX-02 LX-11 LX-12 LX-21 LX-22 LX-31 LX-32 LX-41 LX-42 LX-51 LX-52

UX-005

3/4

331

160

200

―

UX-01

850

300

300∼675

―

UX-10

UX-11 UX-12 UX-21 UX-22 UX-31 UX-32 UX-41 UX-42 UX-91 UX-92

1,115

408

385∼400

825∼1,440

LX-00 LX-10

LX Series

LX-20 LX-30 LX-40

857

350

415∼518

―

SX-10

100

1,066

460

388∼396

1,336

SX-20

100

1,593

580

488∼686

933∼2,151

SX-30

150

100

1,575∼1,675

650

―

606∼4,021

200

300

2,075∼2,154

790

―

1,002∼4,417

200

1,995∼2,045

810

―

713∼3,313

UX Series

1,540

550

362∼385

788∼2,011

100

200

1,841∼1,891

610

―

598∼2,821

200

2,135

760

―

1,002∼3,352

350

800

2,829∼2,929

1,300

―

1,760∼5,760

UX-100

UX-102 UX-103 UX-104

500

1,600

3,630∼3,780

1,570

―

2,262∼8,262

UX-110

UX-112 UX-113 UX-114

500

―

3,630∼3,780

1,570

―

2,262∼8,262

500

1,600

4,270∼4,300

1,570

―

2,262∼8,262

3/4

488

242

402

―

100

1,177

460∼500

388∼405

828∼1,345

150

200

1,850∼1,900

650

―

606∼2,836

200

500

2,182∼2,231

820∼950

―

913∼3,513

250

500

2,434∼2,584

900

―

1,760∼5,760

400

1,600

2,990∼3,140

1,370

―

1,762∼7,012

UX-30 UX-40 UX-90

UX-130 RX-00 RX-10

RX Series

RX-30 RX-50 RX-70 RX-90

UX-133 UX-134 RX-01 RX-02 RX-13 RX-14 RX-31 RX-32 RX-51 RX-52 RX-71 RX-72 RX-92 RX-93 RX-94

SX-82S SX-83S SX-84S

SX-80M

SX-82M SX-83M SX-84M

WX-90

SX-82L SX-83L SX-84L SX-91M SX-92M SX-93M SX-94M SX-95M SX-96M ＳＸ-91L SX-92L SX-94L SX-95L WX-11 WX-12 WX-13 WX-14 WX-53 WX-54 WX-91 WX-92

EX-15 EX-11

SX-90M

SX-90L

WX-10 WX-50

W Plate model

Frame type

SX-11 SX-12 SX-21 SX-24 SX-31 SX-32 SX-41 SX-44 SX-43 SX-45 SX-71 SX-74 SX-73 SX-75

SX-80S

SX-80L

EX Series

SX-70

WX Series

100

SX-40

SX Series

UX-20

Connection Dia mm inch

Model

Max Heat Transfer Area m2

H mm

W mm

100

1,590

360

―

426∼1,526

100

200

1,870

540

―

620∼2,020

150

600

2,683

634

―

713∼3,713

200

500

2,166

805

―

758∼3,757

250

800

2,692

1,070∼1,090

―

1,510∼4,510

1,500

2,529

1,300

―

1,760∼5,760

2,000

2,929

1,300

―

1,760∼5,760

2,600

4,192

1,300

―

1,760∼5,760

1,700

3,134∼3,284

1,300∼1,390

―

1,762∼6,762

1,900

3,438∼3,588

1,300∼1,390

―

1,762∼6,762

350

100

1,177∼1,222

500

―

832∼1,851

200

2,233

820

―

1,002∼3,352

350

800

2,829∼2,929

1,450

―

1,760∼5,760

EX-15

100

1,445

550

―

788∼2,198

EX-11

200

100

2,100

760

―

997∼3,212

No. of plate

Plate series name (LX, UX, RX, SX, EX, GX, YX)

No. of plate

Plate size (0-13)

Only use for specific structure (R:Steam duty, L:Partition plate)

Plate pattern (1-6, MIX case 7-9) See P.07

Frame range (J, P) See P.03

Plate thickness (0.5, 0.6, 0.8, 1.0) 6 means 0.6mm Gasket type (A:Slit in, B/none:Glue)

Pressure range (none, H, U, S) Connection type (N, TN/KN, none)

RX-146A-TNHJR-24

J Type

P Type 10

APPLICATION MARINE

STEEL MILL

HVAC

Central F.W. Cooler

CENTRAL COOLING SYSTEM

Lube. Oil Cooler

G/E F.W. Cooler

PETROCHEMICAL PLANT

PULP & PAPER

POWER STATION APPLICATION CausticSoda, Fertilizer, Petrochemical,Oil Refinery, Oil & Fat, Pharmaceutical Food Sugar, Starch, Sauce, Ketchup, Sodium glutamate HVAC Air-conditioning, Tap water heating Steel Mill Blast Furnace, Continuous Casting, C.O.G, Plating & Galvanizing Metal Plating, Quenching, Anodizing, Painting Pulp & Paper Black Liquor, White Liquor, Digester, Heat Recovery Textile Synthetic Fiber, Spinning, Dyeing Central Cooling System (by Sea water / Fresh water), Power Station, Co-generation, Marine and many others. Chemical

SEMI WELDED PLATE FEATURES

CONDENSING PLATE

CONSTRUCTON of SEMI WELDED PLATE

High heat transfer coefficient owing to uniform distribution of flow to entire heat transfer is by special plate pattern. A couple of plates are laser welded with o-ring at port holes between the plates, thus semi-welded plate heat exchanger can be used for higher pressure compare to conventional Plate Heat Exchanger.

ADVANTAGES

YX type heat exchanger is specially designed for condenser to provide high condensing performance in characteristic formed various material plates. This characteristic YX shape is enable to be light and compact construction and it has the heat transfer performance of 2 to 3 times as high as conventional S&T heat exchanger.

SEMI WELDED TYPE HEAT EXCHANGER LASER WELDING

1. High pressure resistance is about 2 to 3 times higher than all gasket type heat exchanger. 2. Save maintenance cost. 3. Chemical resistance TCG o-ring and synthetic rubber are selectively used. 4. Nozzle pitch dimensions of semi-welded plate heat exchanger are same to those of following plate heat exchangers. WX-10 and RX-10 WX-50 and RX-50 WX-90 and UX-90 Therefore, RX-10, RX-50, UX-90 can be replaced to WX series without changing location of connection pipes. 5. Different from full welded plate heat exchanger, Semi-welded plate heat exchanger can be easily added plates to increase capacity. 6. Semi-welded plates heat exchanger can be disassembled and done easy maintenance against full welded plate heat exchanger.

FEATURES

GASKET PROCESS FLUID

COOLING WATER

ALL GASKET TYPE HEAT EXCHANGER GASKET PROCESS FLUID

COOLING WATER

ADVANTAGES 1. Heat Transfer coefficient is about 2 times as high as that of shell & tube heat exchager. The condensing surface is always secured and the heat transfer coefficient is improved because condensate is immediately drained out. 2. To achieve much less vapor pressure drop than the conventional Plate type Heat Exchanger, special consideration of plate characteristic is taken in contribution. 3. Cooling water consumption is about half of S&T heat exchanger. 4. The use of TCG gasket is selectively used and it expands the application to wide field. 5. Easy change of condensing capacity by increase or reducing the number of plates. 6. Because of inlet and out let connections at the same side, YX type can be applied not only an total condenser but also to partial condenser.

APPLICATION ●BTX Recovering Process in COG Plant ●Sulfuric Acid Process ●B.P.A Recovering Process in Poly-resin Plant ●Quench Water Cooler in Ethylene Plant ●Vacuumed Condensate Cooler in Synthetic Fiber Process ●Pure Water Heater in Clean Room ●Oil and Fat

APPLICATION ●Wort Pan Condenser in Beer Prpcess ●Vent Gas Condenser ●Cl2 N2 NH3 Gas Condenser ●Barometric Condenser

Specifications Max flow rate Operating pressure Max operating temperature Connection Diameter Plate material Gasket material

: 2300m3/h : 4.0 MPaG : 180˚C : 100mm(4")/200mm(8")/350mm(14") : Stainless steel, Titanium, High Nickel alloy etc. : EPDM, TCG, FPM etc.

Specifications WX-10

WX-50

WX-90

Max. flow rate Operating pressure Max. operating temperature Plate material Gasket material

: 30,000m3/h : -0.097MPaG ~ 0.6MPaG : 180˚C : Stainless steel, Titanium etc. : NBR, EPDM, IIR, TCG etc.

Water side

Vapor side

MULTI GAP PLATE

MAINTENANCE

FEATURES

In order to extend the lifetime of the plate heat exchanger, it is important to watch changes in conditions. Frequently observed faults and causes are summarized below. If those faults are detected, please contact us and inform manufacturing number of the unit.

GX-21 provides 10mm channel space both for hot and cold sides, so that heat recovery can be performed between hot and cold slurry. GX-22 plate is made by reversing and upside down GX-21 plates. Mixed plate arrangement of GX-21 and GX-22 is named GX23. It gives the widest channel spacing (20mm) at one side, which is available for large size particles. GX plates have wider depth, larger corrugation pitch and less metal contact points, comparing to conventional plates.

Faults

Decreasing of performance

q Heat transfer performance It is necessary to clean the plates and remove scale, because of supposing scaling on the heat transfer surface.

w Flow performance Clogging of the port holes inlet and/or scale deposition on the heat transfer surfaces may be supposed. It is necessary to clean the unit and remove scale.

ADVANTAGES Leakage of fluids

1. Easy to flow throughout between plates. 2. GX series provides the widest channel spacing. 3. Mixed plates arrangement gives three types of channel spacing. 4. It is better performance for slurry, sludge and crystal containing liquid. 5. Electrolytic polishing selectively used for food application.

e From plate pack Insufficient tightening the plate pack, damage or deterioration of gaskets, plate gasket groove or double seal area corrosion, wrong plate arrangement, foreign object caught between gasket seal surfaces, gasket twisting or overlapping from the groove may be the supposed. Correct each fault or replace gaskets and/or plate.

y Intermixing of two media It is possible that corrosion or damage to the intermediate plate has penetrated the plate. Replace the damaged plate.

r From S-Frame The D-plate gasket, rubber boots, D-plate or S-nozzle may be damaged. Replace the damaged part.

t From E-Frame The E-nozzle gasket, E-nozzle, rubber boots, or E-plate may be damaged. Replace the damaged part.

APPLICATION ●Slurry in PVC, Latex ●Sludge quenching oil ●Plating solution ●Crystal (sodium hypo-chloride, sodium alminate, etc.) ●Glucose ●Flesh juice ●Waste water

GX-20

Specifications Max. flow rate Max. operating pressure Max. operating temperature Connection(standard) Plate material Gasket material

: 900m3/h : 0.7MPaG : 130˚C : 100mm (4"), 200mm (8") : Stainless steel, Titanium etc. : NBR, EPDM etc.

GX-21

GX-23

Combination of GX-21 & GX-22 a view of the cross section from top 15

Cracking at the gasket groove

Decreasing the plate thickness due to severe erosion corrosion

Heat exchanger Seawater inlet port hole Wood chips, seaweeds and shellfish are blocking the flow channel, and causing poor fiow in the unit.

WEB SIMULATOR Simulation of Plate Heat Exchanger Now Possible on the Web

NETWORK

Top screen on the website

- Original proprietary technology to the world “Global leading company, HISAKA”. This is our goal. Since we started our research and development in 1953 we have been engaged in manufacturing and its improvement of Plate Heat Exchangers over 50years in Japan and supplying our equipment to the foreign countries more than 70, and as of today, our HISAKA brand becomes global to manufacture, supply and provide after-sales services at 7 countries in the world.

HISAKA Web-Simulator (HWS) The world's first website for simulating Plate Heat Exchanger is now launched on the Internet. By accessing the following URL and entering your design requirements according to the instructions on the screen, you can get your own plate heat exchanger. In addition, you will be able to download the specification with outline drawing for installation work. The most appropriate simulation of plate heat exchanger is possible 24-hours a day anytime, anywhere according to your convenience.

Click here for a direct link.

PORTUGAL

http://www.hisaka.co.jp/simulator_english/

"Calculation Results"

"Design conditions Input" Screen

KUWAIT

To request a quotation request, click "Quotation Request".

Select your plate materials and enter your design conditions in the empty fields, and click "Calculate".

To output the specifications, click "Print Specifications".

SAUDI ARABIA UNITED ARAB EMIRATES

"Specification" Screen

When you do not need a quotation, click "Return to TOP" to exit.

The calculation results are automatically saved for one month. When you need a quotation later (within the onemonth period), click "Send the Quotation Request Key to you by email. " so that the Quotation Request Key is sent to you.

Group Gr oup Company Company HISAKAWORKS S.E.A. SDN. BHD. (Malaysia) Tel : +60-3-58804185 Fax : +60-3-80817185 E-mail : heatexc@hisaka-asia.com

HISAKAWORKS S.E.A. SDN. BHD. PENANG BRANCH (Malaysia)

If it is necessary to help for selection of Plate Heat Exchanger, please fax the form below with your design conditions. Hisaka shall reply to you. A more suitable design can be offered, if additional information such as plate material and gasket material etc. can be provided. In addition, please feel free to contact our nearest agents or sales representatives of Hisaka if you have any questions.

HISAKA WORKS (THAILAND) CO., LTD. (Thailand)

HISAKA WORKS (THAILAND) CO., LTD. RAYONG BRANCH (Thailand)

Cold side

Tel : +66-3-811-0795 Fax : +66-3-811-0796 E-mail : nichanun@hisaka-thai.com

Fluid name

Inlet temperature

℃

Outlet temperature

℃

Flow rate

m3/h

Pressure drop

MPa or less

Operating pressure

MPaG

Special notes

( Fluid properties)

Fax. 81-72-966-8923 (Japan) 17

Tel : +60-1-6203-2527 E-mail : cyyap@hisaka-asia.com

Tel : +66-2704-6038 Fax : +66-2704-6037 E-mail : heatexc@hisaka-thai.com

kW Hot side

Headquarter and local subsidiaries Local representatives Technology licensee

JAKARTA

An outline drawing with loading data and calculation result specification will be displayed. You can print or download the specifications.

Heat duty

BEIJING KOREA TOKYO YANTAI NAGOYA CHANGSHU OSAKA SHANGHAI GUANGZHOU TAIWAN HONG KONG

BANGKOK MANILA RAYONG HO CHI MINH PENANG MALAYSIA SINGAPORE

Typical specification form for quotation request is also available.

NETWORK

HISAKAWORKS SINGAPORE PTE. LTD. (Singapore) Tel : +65-6897-8489 Fax : +65-6686-4579 E-mail : heatexc@hisaka-sing.com

HISAKINDO (HISAKAWORKS S.E.A. SDN. BHD. Representative Jakarta Office) (Indonesia)

AUSTRALIA

HISAPINO (HISAKAWORKS S.E.A SDN. BHD. Philippines Representative Office) (Philippines) Tel : +63-2-368-5676 Fax : +63-2-368-5757 E-mail : hisapino@hisaka-asia.com

HISAKA KOREA CO., LTD. (South Korea) Tel : +82-2-739-8861 Fax : +82-2-739-8864 E-mail : heatexc@hisakakorea.com

HISAKA WORKS (CHINA) CO., LTD. (China)

Technology T echnology ec hnology Licensee ARSOPI THERMAL S.A. (Portugal) Tel : +351-256-410-410 Fax : +351-256-410-411

YANTAI SHINWA JOINT TECHNOLOGY CO., LTD. (China) Tel : +86-535-643-3939 Fax : +86-535-643-3926

Tel : +86-512-5213-3000 Fax : +86-512-5213-3008

HISAKA WORKS (CHINA) CO., LTD. SHANGHAI BRANCH (China) Tel : +86-21-5211-0701 Fax : +86-21-5211-0720 E-mail : hisaka-sha@hisaka.co.jp

HISAKA WORKS (CHINA) CO., LTD. BEIJING BRANCH (China) Tel : +86-10-6461-2411 Fax : +86-10-6461-2571

Tel: +62-021-58901302 Fax: +62-021-5304380 E-mail : hisakindo@hisaka-asia.com

HISAKA WORKS (CHINA) CO., LTD. GUANGZHOU BRANCH (China)

HISAVINA (HISAKAWORKS S.E.A. SDN. BHD. Representative Office in Ho Chi Minh City) (Vietnam)

Tel : +86-20-3810-5515 Fax : +86-20-3847-7539

Tel : +84-8-39107355 Fax: +84-8-39107356 E-mail : hisavina@hisaka-asia.com

Tel : +966-3-833-1473 Fax : +966-3-833-1471 E-mail : info@hisaka-me.com

HISAKA MIDDLE EAST CO., LTD. (Saudi Arabia) 18