IWES Gold Coast 2012 by UQ Engineering, Architecture and Information Technology

The leading provider of short courses for environment professionals in Australia

Gold Coast Queensland, 9 - 13 July, 2012 NEW COURSES Water and Wastewater Chemistry Reducing Greenhouse Gas Emissions From Landfills Anaerobic Digestion Calculating Your Carbon Liability

Courses in Wastewater Treatment Water Recycling Drinking Water Treatment Membrane Processes Contaminated Site Assessment Coal Seam Gas Water Management

www.iwes.com.au

Ph 1800 000 404

IWES is the largest and most successful continuing education program for professionals responsible for industry environmental performance in Australia. Courses are taught by leading industry practitioners and designed to keep busy professionals abreast of the latest trends, technologies and practices. IWES is the training provider of choice with several large organisations, and we strive to continue to innovate in our course offerings and delivery. In 2012 we have introduced several new courses such as ‘Water and Wastewater Chemistry’, ‘How to Calculate Your Carbon Liability’, ‘Reducing Greenhouse Gas Emissions from Landfills’ and ‘Chemical Contaminants in Water: Significance, Monitoring and Interpretation’. We look forward to continuing to provide a key service for environment industry professionals.

Index

page

Principles of Wastewater Treatment Design of Biological and Advanced Wastewater Treatment Processes Decentralised Wastewater Treatment Principles of Wastewater Microbiology Water and Wastewater Chemistry

1 2 3 4 5

Drinking Water Treatment: Principles, Practice and Applications Membrane Plant Design and Operation Australian Drinking Water Guidelines: Practical Implementation of ADWG Chemical Contaminants in Water: Significance, Monitoring & Interpretation Water Recycling: Design, Assessment & Optimisation

6 7 8 9 10

Principles of Hydrogeology and Groundwater Systems Seawater Desalination Coal Seam Gas Water Management

11 12 13

Managing Climate Change: The Water Industry in a Clean Energy Future How to Calculate Your Carbon Liability Reducing Greenhouse Gas Emissions From Landfills Anaerobic Digestion: Sustainable Biosolids Management

14 15 16 17

Contaminated Site Assessment and Remediation Corrosion and Odour Management in Sewers Odour Assessment and Management Principles of Air Quality and Emissions Management

18 19 20 21

The Presenters David Arbuckle, Konstantinos Athanasiadis, Damien Batstone, Cara Beal Arran Canning, Josef Cesca, Heather Chapman, Bill Clarke Daniel Deere, Stuart Dever, Mary Drikas Paul Durrant, David Fligelman, Jeff Foley, Ted Gardner Geordie Galvin, Peter Griffith, Mike Johns, Ben Kele Stuart Khan, Andrew King, Paul Lant, Greg Leslie Chris Lund, Gayle Newcombe, Robin Ormerod, Steven Pratt Bob Seviour, Paul Smith, Helen Stratton, Daryl Stevens Stephan Tait, Simon Toze, Nikolay Voutchkov, Troy Walker Bethany Warren, Joe Whitehead, Herb Williams, Zhiguo Yuan

22 23 24 25 26 27 28 29 30 31

The Venue

WaterAid

The Program

Registration Form

What do people say about IWES?

Who will attend ?

Principles of Wastewater Treatment 1

The aim of this course is to teach the key enabling scientific and process engineering fundamentals which underpin wastewater treatment processes. These are taught via real wastewater treatment problems and case studies. This is the most popular wastewater fundamentals course offered in Australia. Now featuring site visits, real case study data and exercises, and state-of-the-art multi-media teaching resources.

issues addressed day 1

• Wastewater characterisation and sampling • Primary treatment technologies • Preliminary treatment and data audits • Workshop problem 1

day 2

• Secondary treatment (aerobic versus anaerobic ) • Biological treatment technologies - ponds, biofilm processes, aeration, high rate anaerobic and aerobic processes • Plant Visit 1

day 3

• Aquatic chemistry - why is pH so important ? • Material balancing – a fundamental tool for analysing wastewater treatment processes • Activated sludge (incl. SBR, MBR, trouble-shooting) • Workshop problem 2 - Secondary treatment design exercise

day 4

• Tertiary treatment - ion exchange, adsorption, membranes, disinfection • Biosolids Management • Plant Visit 2

day 5 • Water Reuse - municipal and industrial case studies • Biological Nutrient Removal • Workshop problem 3 Go to www.iwes.com.au for the extended course outline

who should Attend? Engineers, scientists, managers and new staff who require an excellent introduction to the principles of wastewater treatment.

what do you get ? • Access to a world leading training resource • Access to world leading practitioners • Course notes • Two half-day plant visits • Three detailed workshop problem sessions based on real case study material • Core engineering skills and tools to take back to your workplace, which will enable you to analyse and troubleshoot your wastewater problems • Real plant data and exercises

Presenters: Paul Lant and Steven Pratt l

Mon 9

Tues 10

Wed 11

Thurs 12

Fri 13

Design of Biological & Advanced Wastewater Treatment Processes This course focuses on the design, operation and optimisation of leading-edge biological wastewater treatment systems for both municipal and industrial settings. The integration within advanced water recycling systems is also considered. By completing this course, you will become familiar with the main drivers influencing the selection and design of modern treatment plants, and the key methodologies and parameters used in their design.

issues addressed day 1 Design issues for biological systems • Critical design issues – municipal and industrial systems • Basic bioenergetics; COD vs BOD; COD & N fractions; P fractions • Organism growth and decay • Sludge age and various biological mass fractions • Nitrogen removal - principles, analysis and modelling • Design Workshop 1: Process option selection & integration

day 2 Biological nutrient removal • Phosphorus removal - biological and chemical • BNR process configurations and case studies • BNR activated sludge design for very tight N and P limits • Design Workshop 2 - Design of BNR plant

day 3 Site visits and water recycling issues

• Site Visit 1 – Large BNR and recycled water treatment plant • Site visit 2 – Large industrial wastewater treatment & A+ quality water reuse facility • Issues in recycled water treatment and reuse

day 4 Primary, anaerobic and solids handling

Go to www.iwes.com.au for the extended course outline

who should Attend? People requiring in-depth knowledge for design, concept generation, process selection for, and trouble-shooting of modern wastewater treatment plants. The course assumes familiarity with the fundamentals of wastewater treatment.

technologies • Industrial wastewater treatment plants - design differences from municipal plants • Innovative primary technologies - modern screens, hydrocyclones, ultrasound, electrocoagulation • Anaerobic technologies • Design Workshop 3: Design of High Rate Anaerobic System

day 5 Design issues for biological systems

• Membrane bioreactors – design issues and case studies • Design Workshop 4: Design of complex industrial wastewater treatment plants

what do you get ? • CD, with copies of design spreadsheets • Course notes and resource materials • Access to two leading designers & practitioners • Design skills to take back to your workplace • Two site visits

Presenters: Mike Johns and David Fligelman l

Mon 9

Tues 10

Wed 11

Thurs 12

Fri 13

Decentralised Wastewater Treatment 3

Learn about the characteristics of decentralised wastewater, and the importance of mass balance of nutrients, water and salinity. Types of decentralised technologies will be discussed in detail, and illustrated with case studies. Other important aspects that will be covered include national and state based guidelines and regulations, disinfection of effluent for various safe end uses, and the environmentally sustainable release of effluent at a catchment scale. The course will be taught by leading industry professionals engaged in the design, assessment and construction of decentralised wastewater systems.

issues addressed day 1 • Characteristics of decentralised wastewater • Mass balance principles (nutrients, water, salinity) • Overview of decentralised systems technologies • Regulations that govern the approval, management and inspection protocols of wastewater systems • Soils – what are their important characteristics for on site effluent disposal and how should they be measured • Septic trench absorption systems

day 2 • Greywater • Urine separating toilets • Disinfection of treated effluent • Application of wastewater systems at a building to neighbour scale • Integration of treatment technologies (e.g. septic tank + pumped sewer + ion exchange)

day 3

Go to www.iwes.com.au for the extended course outline

who should Attend? This course is designed for water industry professionals, engineers, urban planners, environmental consultants and regulators who are involved with the design, installation, operation, appraisal or regulation of decentralised systems.

• Management of decentralised systems • Sustainability of decentralised systems at a catchment scale • Auditing on- site systems • Methods to estimate risks of off-site export • Workshop - Sustainable effluent loading rates

what do you get ? • Access to several leading Australian practitioners in decentralised wastewater treatment systems • An excellent introduction to decentralised wastewater treatment principles, technology and the associated regulations • Core skills and tools to take back to your workplace which will enable you to specify, evaluate and audit decentralised wastewater systems • Course notes and resource material • Detailed workshop problem sessions based on real case study material

Presenters: Ted Gardner, Cara Beal, Ben Kele, Simon Toze and Joe Whitehead l

Wed 11

Thurs 12

Fri 13

Principles of Wastewater Microbiology The aim of this course is to teach the microbiological principles that underpin biological wastewater treatment processes. Learn how carbon, nutrients (N&P) and pathogens are removed in biological wastewater treatment systems. Who is responsible? How do they do it? Problems such as bulking and foaming will be discussed, and practical control strategies presented. This is a practical course, and includes a one-day laboratory experience, where everyone will work with wastewater samples and use a variety of microscopy techniques.

issues addressed day 1 Introduction to wastewater microbiology • What is microbiology and which organisms are microbes ? • What roles do microorganisms play in wastewater treatment ? • What is the cell genome and what does it do ? • Which organisms are found in activated sludge plants ? • How do we study activated sludge microbiology ? • Case Study 1 – Trouble-shooting activated sludge problems using microbiology

day 2 Nutrients, pathogens, bulking & foaming • The microbiology of nitrogen reduction • What role do microbes play in P removal ? • Problems that microbes cause in activated sludge • Pathogens in wastewater • What pathogens survive the activated sludge process and do we need to worry ? • Case Study 2 - Bulking and foaming problems

day 3 In the laboratory

Go to www.iwes.com.au for the extended course outline

who should Attend? Engineers, consultants, scientists, operators and managers with an interest to know how their biological wastewater treatment plant works. No prior knowledge of microbiology is assumed.

• Why look down the microscope at your mixed liquor or foam ? • What to expect when microscopically observing mixed liquor • Preparation of slides • How to use the microscope • Observing wet mounts – which are the protozoa? • Microscopy of mixed liquors • Identifying filamentous bacteria and poly-phosphate accumulating bacteria • What did it all mean ? • How can I use this information ?

what do you get ? • Course notes and CD • Access to two world-leading wastewater microbiologists and a leading wastewater process designer • Core microbiological skills to take back to your workplace • One day hands on laboratory session

Presenters: Helen Stratton, Bob Seviour and Peter Griffiths l

Mon 9

Tues 10

Wed 11

Water and Wastewater Chemistry 5

The aim of this course is firstly to teach the key fundamentals of water chemistry which underpin so many of the critical processes that occur in water and wastewater systems, and secondly to use this knowledge to understand and manage key issues like corrosion, fouling, precipitation, flocculation and odour. Chemical reactions occur everywhere in water and wastewater systems, and are actually essential for treatment. The by-products of chemical reactions are also the cause of many complex operational challenges. At the end of this course, you will understand the key principles of water chemistry, and be able to answer key questions like why does dosing with ferric chloride reduce phosphate to low levels? Why do my membranes foul? What is crystallising in my pipes? How do chemical odour scrubbers work? Why does alum dosing reduce the turbidity? Why is the water chemistry so important for my biological process?

issues addressed day 1 Chemistry basics • Chemistry basics in water and wastewater • Tools to understand and manipulate chemistry • Workshops: Spreadsheet based analysis of a case study - predicting inhibition and gas composition for an anaerobic digester • Complex systems – high concentrations and unusual compounds

day 2 Operation and analysis • Gas-liquid transfer - Analysis of stripping and aeration • Aeration workshop • Precipitation and scaling • Scaling workshop (phosphate scale formation in pipes and membranes)

what do you get ? • Access to world leading practitioners and researchers • Detailed workshop problem sessions based on real case study material • Core skills and tools to take back to your workplace, which will enable you to analyse and trouble-shoot your water wastewater problems • A CD containing all electronic materials used in the course including Microsoft Excel spreadsheets • Practical tools to effectively understand and manipulate the chemistry of water and wastewater treatment

Go to www.iwes.com.au for the extended course outline

who should Attend? Engineers, managers, consultants and plant operators who are involved in water and wastewater management.

Presenters: Damien Batstone and Stephan Tait l

Mon 9

Tues 10

Drinking Water Treatment: Principles, Practice and Applications The aims of this course are to identify key water quality issues, describe the major water treatment processes currently used, and to outline new approaches for optimising water treatment. This is a practical course, and case studies are used extensively in teaching. The course concludes with an interactive design workshop to consider the issues and required treatment for a theoretical water source and water quality.

issues addressed day 1 • Overview of the Australian Drinking Water Quality guidelines • Emerging water quality issues • Effective water quality management, including case studies • Disinfection processes and their advantages and disadvantages • Conventional water treatment technology • Variations to conventional treatment • Case studies from operating full scale plants • Introduction to membrane technology • Water Treatment Exercise 1

day 2 • Causes and treatment of issues related to cyanobacteria • Treatment options for taste and odour compounds and algal toxins • Water Treatment plant visit

day 3 Go to www.iwes.com.au for the extended course outline

who should Attend? The course is designed specifically for engineers, plant operators, scientists, consultants and researchers who do not have a strong background in water quality issues or water treatment processes. It aims to provide an understanding of the issues facing the potable water industry to assist in providing a better water quality outcome.

• Problems relating to inorganic contaminants • Oxidation and physical processes for removal of arsenic, iron and manganese • Impact of natural organic matter (NOM) and new approaches to characterise it • Removal of NOM - optimising coagulation and alternative treatments • Overview of desalination, including a case study • Water Treatment Exercise 2

what do you get ? • Access to world leading experts • Advice with local issues • CD with the course resources and presentations • Relevant publications and websites to seek further information • Half-day plant visit

Presenters: Mary Drikas and Gayle Newcombe l

Mon 9

Tues 10

Wed 11

Membrane Plant Design and Operation issues addressed day 1 Membrane hardware and drinking water

A comprehensive 5 day course on membrane plant design and operation, taught by two leading Australian membrane practitioners. 7

Participants will work through design problems for water treatment, water recycling and membrane bioreactor applications, review operational data from membrane plants, learn how to identify membrane fouling and integrity problems, and participate in hands-on autopsies of failed membrane modules.

applications • Detailed description of membrane equipment and systems • Hands-on dissection of membrane modules • Overview of key water quality parameters and water chemistry issues • The effect of suspended solids and NOM • Design problem 1: Drinking water application

day 2 Detailed water quality analysis and principles of RO system design • Interpreting water quality data - achieving product water quality targets and identifying design limitations • The influence of sparingly soluble salts on RO systems • Using and understanding the limitations of membrane design software for desalination and water recycling applications • Product water and post-treatment conditioning • Design problem 2: Water recycling application day 3 Operational issues: managing

performance data & integrity • Developing monitoring and control systems for membrane plants • Membrane integrity monitoring and product water quality issues • Site visit to an industrial water recycling plant

day 4 Operational Issues: fouling, cleaning and cost estimating • Fouling and membrane autopsy workshop • Techniques for identifying membrane fouling • Optimising cleaning and fouling control strategies • Hands-on membrane autopsy exercise • Workshop: Trouble-shooting membrane operating problems

Go to www.iwes.com.au for the extended course outline

who should Attend? Anyone who wants to know how to design and operate membrane plants for water and wastewater treatment, water recycling and desalination. Participants are encouraged to bring a laptop computer. Participants will receive copies of design software for reverse osmosis and antiscalant chemicals.

day 5 Special applications: membrane bioreactors & decentralised systems • How do Membrane Bioreactors (MBR) compare with conventional wastewater treatment plants ? • Key design variables for MBRs • Design of ancillary facilities for MBRs, such as head-works, aeration systems, solids handling and chemical storage facilities • Design problem 3: Membrane bioreactor

Presenters: Greg Leslie and Troy Walker l

Mon 9

Tues 10

Wed 11

Thurs 12

Fri 13

Australian Drinking Water Guidelines Practical Implementation of the ADWG Framework

issues addressed day 1

The aim of this course is to provide practical training in implementing the NHMRC/NRMMC Australian Drinking Water Guidelines (ADWG) Framework for the management of drinking water quality.

• History of water supply and origin of the Framework • Overview of water quality risk assessment management frameworks • Overview of ADWG Framework and related requirements • Formal requirements and standard of duty noting regulatory requirements [e.g. Water Supply (Safety and Reliability) Act 2008 (Qld); Safe Drinking Water Act 2003 (Vic); Operating Licences and Best-Practice Management of Water Supply and Sewerage Guidelines 2007 (NSW)] • Stakeholders and risk assessment team • System description and system flow diagrams • Water quality data analysis and presentation • Methodologies for drinking water hazard analysis and risk assessment • Identifying hazards, assessing risks and setting management priorities

This is a practical course, structured around a series of sessions that illustrate each of the principles and concepts of the Framework using illustrative examples. Each of the short lectures is followed by small group exercises, and opportunities for participants to apply the concepts to their own situations. A case study of the implementation of the Framework will be given using local examples.

day 2 • Identifying critical control points and key control programs • Developing specifications for proportional control of risks • Management of incidents and emergencies • Technical validation of system capability • Verification of system performance • Supporting programs underpinning the risk management system

Go to www.iwes.com.au for the extended course outline

what do you get ?

who should Attend?

• Practical understanding of the ADWG Framework • Access to experienced water quality management system facilitators • Course notes and CD summarising key points from the Framework • Exercises and pro forma’s to assist with Framework implementation • Peer contacts working in water quality management

• Individuals wanting a practical understanding of the Framework • Professionals using the Framework in operational, regulatory or service provision roles

Presenters: Daniel Deere and Arran Canning l

Thurs 12

Fri 13

Chemical Contaminants in Water Significance, Monitoring and Interpretation

This new course has been designed to provide the practical skills necessary to commission, manage, interpret and respond to chemical water quality monitoring data. The issues of chemical contaminants in water have rapidly escalated in importance and profile throughout the last decade. Chemicals including pesticides, dioxins, hormones, pharmaceuticals, cyanobacterial toxins and disinfection by-products have been associated with diverse environmental and public health concerns in drinking water, wastewater and environmental waters. Accordingly, it is increasingly important for water quality practitioners to possess the knowledge and skills to enable them to identify key issues associated with chemical contaminants, design monitoring programs, collect valid samples, select suitable laboratories for analysis and interpret chemical analytical data.

issues addressed day 1 Understanding the issues • What types of environmental and human health risks do trace chemicals pose? • What evidence is there for these risks? • How are ‘safe’ concentrations and exposure levels determined? • Australian water quality guidelines & safe levels of exposure • Analytical methods for extraction and detection – knowing what to request • Understanding basic principles of advanced analytical methods • Learn to speak the language of an analytical chemist !

day 2 Practical skills for chemical water quality

Go to www.iwes.com.au for the extended course outline

who should Attend? This course is designed to enhance the knowledge and skills of people responsible for commissioning, interpreting and responding to chemical water quality monitoring data. It is relevant for people working in catchment management, drinking water quality, wastewater characterisation, environmental water quality and risk assessment.

monitoring • Sampling technique to ensure meaningful representative sample collection • Statistical requirements and minimum sample numbers • Sample preservation techniques • Selecting and assessing laboratories to undertake your analysis • Understanding laboratory techniques to ensuring accurate quantitation and quality control • Interpreting chemical monitoring data • Statistical analysis and reporting • Responding to media questions and issues

what do you get? • Practical skills to design, manage and interpret chemical water quality monitoring programs • Access to a national expert in chemical water quality monitoring • Several Australian case studies and benchmarking data

Presenter: Stuart Khan l

Mon 9

Tues 10

Water Recycling: Design, Assessment and Optimisation Water recycling has become an important component of industrial and municipal water management in Australia. This course will provide a comprehensive introduction to the key issues associated with water recycling. You will learn the underlying principles and logic behind the Australian Guidelines for Water Recycling (AGWR), how the AGWR can be applied, how to identify opportunities to improve the efficiency of water recycling operations, how to rationalise sampling and water quality analyses and how to assess chemical and microbial risks. It will also identify the state-of-the-art in water recycling technology and practice in Australia and overseas.

issues addressed day 1 • Overview of Australian and International guidelines for recycled water • Key principles, concepts and definitions used in the new AGWR • The approach used to derive the microbial health-based targets • Estimating the level of risk and establishing the appropriate log reduction requirements • Design of challenge tests for validation and verification studies • Workshop 1

day 2 • Selecting treatment processes for removal of suspended solids, pathogens, organics and salts in municipal and industrial applications • Using HACCP principles to establish control and monitoring protocols for water recycling schemes • The management of chemical risks in the AGWR • Advanced analytical techniques for trace organics analysis • Assessment of on-line water quality analysis techniques • Site visit to an industrial water recycling scheme

day 3

Go to www.iwes.com.au for the extended course outline

who should Attend? The course is designed for water industry professionals working with recycling projects in industrial and municipal applications, that need to know the latest information and trends in water quality analysis, chemical and microbial risk assessment, centralised and decentralised treatment options and on-line water quality monitoring.

• Deriving the environmental targets, key hazards and trigger values • Industrial water recycling case studies from agriculture, horticulture, dairy, food and beverage, pulp and paper manufacture • Municipal water recycling case studies involving recycling for groundwater recharge and wetlands • Indirect potable reuse: treatment processes, regulations, health effects, cost and public perception • Workshop 2

what do you get ? • Practical skills to design, optimise and evaluate water recycling projects • Access to world leading experts in water recycling • CD with course notes • Several Australian case studies and benchmarking data • Site visit

Presenters: Greg Leslie, Daniel Deere, Heather Chapman, Daryl Stevens and Stuart Khan l

Wed 11

Thurs 12

Fri 13

Principles of Hydrogeology and Groundwater Systems The aim of this course is to teach the key elements and processes that form the basis of hydrogeology. The course focuses on both scientific theory and practical applications essential to any professional faced with issues associated with groundwater. The knowledge will be imparted with a series of short lectures dealing with real hydrogeological and groundwater issues supported with workshop exercises and case studies. This is a practical course, and includes a field trip element to allow for the application of the skills learned.

issues addressed day 1 • Groundwater in modern society - issues and perceptions • Fundamentals of the Hydrogeological Cycle - inputs, processes, outputs • Determination of aquifer characteristics and groundwater hydraulics • Surfacewater and groundwater interactions • Introduction to hydrochemistry • Statistical analysis and interpretation of hydro-chemical baseline data • Workshop 1 - Generation of a conceptual hydrogeological model - identifying inputs, processes, water budgets and groundwater contouring

day 2 • Aquifer delineation, description and quality determination • Designing, supervising & evaluating long & short term pumping tests • Determining well efficiency, sustainability and long term pumping strategy • Field hydraulic testing and its interpretation • Basic methods of data analysis • Designing and supervising exploratory drilling programs • Introduction to analytical and numerical modelling • Workshop 2 - Generation of a conceptual hydrogeological model - identifying interactions and outputs

day 3

Go to www.iwes.com.au for the extended course outline

• Half-day field trip • Groundwater contamination - Identification, assessment and remediation options • Groundwater in modern society - The future

who should Attend?

what do you get ?

Any professional who may have to deal with issues associated with groundwater and/or who requires an understanding of the fundamentals of hydrogeology, groundwater assessment and its management

• Access to a leading practitioner in hydrogeology and groundwater systems • An excellent introduction to the principles of hyrogeology and groundwater systems • Half-day field visit • Course notes on CD • Real case study exercises and data

Presenters: Paul Smith l

Mon 9

Tues 10

Wed 11

Seawater Desalination A comprehensive course on seawater desalination, taught by one of the worlds leading desalination practitioners. Learn how a state-of-the-art Reverse Osmosis ( RO) desalination facility is developed, designed, constructed and operated. This course covers both theoretical and practical aspects of desalination technology, which focuses on selection, design and operational monitoring of desalination plants.

issues addressed day 1 Desalination fundamentals • Overview of Desalination Technologies • Alternative Desalination Technologies (electrodialysis and ion exchange) • Comparison of Thermal and Membrane Desalination • Reverse Osmosis Fundamentals (RO separation; RO system components ) • Planning for Seawater Desalination Plants (Key plant components; How to determine plant size and location ?)

Day 2 Reverse osmosis desalination systems – design & costs • Seawater Intakes • Seawater Pretreatment • Reverse Osmosis System Configuration (RO trains – alternative configurations; cleaning systems; sizing of key components) • Desalination Plant Energy Use Day 3 (AM) Reverse osmosis desalination systems – design & costs cont. • Seawater Concentrate Disposal • Desalination Costs (Construction; O&M; Total cost of water) Go to www.iwes.com.au for the extended course outline

who should Attend? Engineers, plant managers, regulators, operators and consultants who want to learn how a state-of-the-art facility is developed, designed, constructed and operated, and what environmental mitigation measures will ensure that the plant will have minimum environmental impact.

Day 3 (PM) Tugun seawater desalination plant site visit Day 4 Advanced desalination plant design

and operations • Desalination Plant Performance Analysis and Optimization • Desalination Plant Operational Monitoring & Troubleshooting • Desalination Plant Case Studies

WHAT DO YOU GET ? • Access to a world leading desalination expert • An excellent overview of desalination technologies, applications and trends • Lessons learned from several large international desalination projects • Australian and international case studies

Presenters: Nikolay Voutchkov l

Mon 9

Tues 10

Wed 11

Thurs 12

Coal Seam Gas Water Management

Issues addressed

The rapid upstream development currently underway to support CSG projects involves a significant effort on associated water management, including both treatment and beneficial use plans. This comprehensive course provides an overview of the wide range of specialties involved in the management of coal seam gas associated water. You will learn about the full CSG water cycle, and how to achieve better overall water outcomes to support the growth of this critical Australian industry. The presenters are some of Australia’s leading CSG water practitioners and designers, and the course is structured around real-life challenges and solutions encountered in some of Australia’s largest and most demanding CSG water management projects.

day 1 • Industry overview including CSG in Queensland and global activities • The natural environment - surface water and hydrogeology • Field development • Hydrogeology • Field infrastructure design (gathering system) • Design Exercise 1: Water curve estimation and field infrastructure design

day 2 • The regulatory and social environments • Water Quality: Key water quality parameters for plant design • Treatment: System configurations; RO membrane desalination; Chemical and physical treatment technologies • Design Exercise 2: Design a CSG water treatment facility

day 3 • Overview of beneficial reuse options and key drivers • Dams - Regulation, design principles and operational challenges • Overview of brine management • Case studies from operating full scale plants • Design Exercise 3: Design a beneficial reuse scheme

Go to www.iwes.com.au for the extended course outline

what do you get ?

who should Attend?

• Access to leading CSG water process experts • Course notes and resource material • Workshop sessions based on real case study material • Analysis and design skills to take back to your workplace • Design exercises and real-world case studies

The workshop is designed specifically for engineers, field operators, scientists, consultants and researchers who require a strong grounding in CSG water quality issues and water treatment processes.

Presenters: Andrew King, Konstantinos Athanasiadis, Greg Leslie, Paul Smith l

Wed 11

Thurs 12

Fri 13

Managing Climate Change Risk: The Water Industry in a “Clean Energy Future” The Federal Government’s Clean Energy Future package is set to radically transform the economic drivers for managing climate change risk in the Australian economy. The water industry is a significant energy consumer and generator of direct and cradle-to-grave greenhouse gas emissions from collection and treatment systems. As a consequence, our industry is intricately linked with climate change, in both cause and effect. It is now also well understood that there will inevitably be a change in the climate due to human induced global warming. This will pose a risk for the infrastructure and operations of the industry.

Go to www.iwes.com.au for the extended course outline

who should Attend? Any water sector professional that requires an understanding of climate change risk and greenhouse gas emissions assessment and reduction in the water industry. This includes: • Climate Change / Protection Officers • Managers responsible for greenhouse gas emissions • Government enforcement agencies • Engineers and technical managers • System designers

Issues addressed day 1 • Climate change science and its relationship to the water sector - what are the key environmental drivers for the industry ? • Federal and state government policy settings on climate change: Implications of the NGER System, Clean Energy Future and other regulatory programs - how are Australian governments addressing climate change and how does that affect the water industry ? • Workshop: Developing a climate change risk assessment and response strategy • Calculating greenhouse gas and energy inventories - what are the rules and regulations behind the compilation of a GHG and energy ‘footprint’ ?

day 2 • Fugitive greenhouse gas emissions (methane and nitrous oxide) from wastewater systems - what are the biological and physical processes involved in the generation of these GHGs at wastewater treatment plants ? • Workshop: Calculating a GHG and energy inventory for a water organisation - a step-by-step case study of calculating an inventory, according to the NGERS guidelines • Strategies for reducing greenhouse gas emissions in the water industry - how can an organisation reduce its emissions ? • “Carbon neutrality” and generating accredited offsets what does it mean and how can organisations do it ?

day 3 • Climate change mitigation basics and relationship to adaptation - some changes are inevitable, how can we deal with them ? • Climate change impacts and risk assessment - how will changes in the climate affect the water business ? What are the risks and how do we assess and prioritise them ? • Developing a climate change plan and embedding it into your organisation • Workshop: Creating a credible climate change abatement and adaptation plan

what do you get ? • Access to two leading practitioners in the field of climate change risk in the water industry • Tools and plans to directly apply in your workplace • Course notes and CD-ROM • Detailed Australian case studies and “hands-on” workshops

Presenters: Jeff Foley and Chris Lund l

Mon 9

Tues 10

Wed 11

How to Calculate Your Carbon Liability As a result of the Federal Government’s Clean Energy Future package, all water industry corporations need to understand the cost implications of their direct emissions, and those of their supply chain (so called Scope 3 emissions), who will pass the costs through to them. Their full carbon liability, including any pass-through costs needs to be known, managed and any costs passed through to their own clients in a defendable manner.

The aims of this course are to provide water industry practitioners with the skills and knowledge to: 1. Understand lifecycle assessment and how it can be used to determine direct and indirect (lifecycle) impacts of their operations; 2. Quantify the carbon liability in their supply chain and how to determine and manage pass-through costs 3. Determine the direct and indirect carbon liability of a company’s activities, and thus determine the full costs of the new carbon pricing legislation to be passed on to the customers; 4. Use lifecycle assessment to determine the sustainability of their own operations and those of their supply chain.

issues addressed day 1

• Principles of life cycle assessment and carbon footprinting • Determining scope 3 carbon emissions, supply chain liability and pass through costs for the water industry • Hybrid economic input-output LCA ( EIOLCA) and The University of Sydney/WSAA tool • Workshop 1: Calculating direct and indirect carbon emissions and liability using the WSAA tool

day 2

Go to www.iwes.com.au for the extended course outline

who should Attend? Any water sector professional that requires an understanding of how to calculate the carbon liability for a water sector organisation. This includes: • Climate Change / Protection Officers • Managers responsible for greenhouse gas emissions • Government enforcement agencies • Engineers and technical managers • System designers

• Workshop 1 continued • Risk and opportunity - Managing an organisation’s carbon liability under the Clean Energy Future legislation • Workshop 2: Managing an organisation’s carbon liability and pass-through costs • Accrediting Carbon Neutral Products under the National Carbon Offset Standard and the role of life cycle assessment • Using life cycle assessment to plan your infrastructure investment, manage your supply chain and improve the short and long term sustainability of decision making and planning

what do you get ? • Access to two leading practitioners in the field, who have written guidelines and calculated carbon liabilities for many water organisations • Tools to directly apply in your workplace • Course notes and CD-ROM • Detailed Australian case studies and “hands-on” workshops

Presenters: Chris Lund, Jeff Foley l

Thurs 12

Fri 13

Reducing Greenhouse Gas Emissions From Landfills This practical course is targeted towards landfill managers and engineers who wish to explore methods to maximise biogas capture and minimise their greenhouse gas liability. The course covers the fundamentals behind the gas generation models specified by NGERS, including methods for estimating the actual decay rate of waste in a landfill. The course covers techniques for maximising landfill gas capture, including strategic planning for landfill cells and pre-treatment methods including organics diversion. The course also discusses methods for costing greenhouse emissions liabilities.

issues addressed day 1 • Fundamentals of greenhouse gas generation from landfills • Methods for estimating greenhouse emissions under the range of NGERS models • Methods for estimating actual waste decay rates in a landfill, based on captured biogas and direct measurements of fugitive emissions • Assessment and management of carbon price liability • Methods of directly measuring greenhouse emissions from landfill • Landfill cover design, incorporating measures for methane oxidation • Passive gas drainage and bio-filtration systems for biogas

day 2 • Tour of the Swanbank landfill, including a tour of the Biocell facility • Methods for estimating the yield and degradation rate of waste samples • Methods for accelerating degradation off waste in landfill • Pre-treatment options for MSW, including organics diversion

Go to www.iwes.com.au for the extended course outline

what do you get ?

who should Attend? Any environmental professional that requires an understanding of how organics degrade and greenhouse gases are generated in landfills. This includes: • Climate Change / Protection Officers • Managers responsible for greenhouse gas emissions • Government enforcement agencies • Engineers and technical managers • Landfill designers and operators

• Access to two leading practitioners in the field • Fundamental understanding of organic degradation and the production of greenhouse gases in landfills • Tools to assist you to estimate and measure greenhouse gas emissions from landfills • Tools to assist to optimise biogas production in landfills • Skills to directly apply in your workplace • Course notes and CD-ROM • Detailed Australian case studies and “hands-on” workshops

Presenters: Bill Clarke, Stuart Dever l

Mon 9

Tues 10

Anaerobic Digestion: Sustainable Biosolids Management Anaerobic digestion has emerged as one of the leading methods for biosolids conditioning, as it produces a better quality product, has relatively low cost components, and is well established. As a process, it is well understood, and simple. However, much of this knowledge has not been widely taught, and there is still a perception that anaerobic digestion is a difficult process. In this course, we dispel this, as well as other myths, and show that anaerobic digestion is a simple, robust process, that is easy to design, operate, and control for a high quality gas and solid product. The course will use spreadsheeting extensively, and participants should bring a laptop computer (with Microsoft Excel installed). Macros should be enabled.

issues addressed day 1 Background, design, and application • Biosolids – what are they ? • Guidelines, regulations, quality measures, and the case for beneficial application • Introduction to biosolids treatment technologies • Anaerobic digestion: background, design and application • Enhancing anaerobic systems: use of mechanical and temperature conditioning for better digestion. Economic, technical, and environmental analysis • Workshop 1: Spreadsheet based analysis of an AD case-study

Day 2: Operation and analysis • Troubleshooting: what goes wrong with digesters? What impact does it have on quality measures ? • Digester chemistry, including mini workshop • Overall system design: nutrient, solids, energy and transport management • Workshop 2: Spreadsheet based analysis of an integrated system

what do you get ?

Go to www.iwes.com.au for the extended course outline

• Access to an internationally recognised leading researcher and practitioner in Anaerobic Digestion

who should Attend?

• Workshop sessions based on real case study material

Engineers, managers, consultants and plant operators who are involved in the design, operation and optimisation of anaerobic digestion processes for biosolids management.

• Analysis and design skills to take back to your workplace • A CD containing all electronic materials used in the course including Microsoft Excel spreadsheets

Presenters: Damien Batstone l

Thurs 12

Fri 13

Contaminated Site Assessment and Remediation The aim of this course is to provide an overview of the required processes for managing contaminated or potentially contaminated sites. The course explains what steps need to be taken when you encounter soil or water contamination, what options are available, and the regulatory requirements that need to be satisfied. Participants will also gain an understanding of the protocols and processes undertaken in order to investigate and remediate soil and ground water contaminated sites.

issues addressed day 1 What do you do when a site might be

contaminated ? • How to determine if the site is known or suspected of being contaminated • Guidelines and investigation thresholds • Environmental Site Assessment (ESA) • Regulatory Considerations • Workshop 1: Contaminated site assessment

day 2 Tools for site investigations • Contamination in soil: Overview of soil science; Soil sampling and analysis; Interpreting results; Techniques for remediation • Contamination in water: Overview of ground water (hydrogeology) and surface water (hydrology); Water sampling and analysis; Interpreting results; Techniques for remediation • Determining whether to implement a SMP, RAP or remediate • Workshop 2: Contaminated site analysis

day 3 Site visit & site remediation case studies • Assist in an environmental site assessment • Site visit debrief • Contamination issues related to various industries • Chain of custody and analytes of concern • Workshop 3: Site remediation

Go to www.iwes.com.au for the extended course outline

who should Attend? The course is specifically designed for anyone who is dealing with issues related to contaminated land or ground water. The course will provide insight and understanding to assist people to work with environmental consultants or local councils, and will be invaluable for environmental scientists, engineers, consultants, town planners or developers wishing to enhance their knowledge of contamination issues and processes.

what do you get ? • Access to leading practitioners in contaminated land & hydrogeology • An understanding of the fundamental steps required to investigate, remediate and validate contaminated sites • A good introduction to the relevant guidelines, investigation thresholds and regulatory requirements for contaminated land • Course notes on CD • A visit to participate in a real site assessment

Presenters: Paul Durrant, Paul Smith and Herb Williams l

Mon 9

Tues 10

Wed 11

Corrosion and Odour Management in Sewers The aim of this course is firstly to teach the key science and engineering principles underpinning sewer processes, and secondly to use this knowledge to understand and manage key issues like corrosion, odour and greenhouse gas emissions. The course presents the essential information and proven technologies for the management of sewers. Both liquid and vapor phase technologies will be covered. The effectiveness and limitations of each technology will be assessed through the use of case studies and biotransformation processes.

issues addressed day 1 The drivers and under-pinning science • In-sewer physical, chemical and biological processes • Microbial processes leading to production of hazardous compounds • Drivers: odour, corrosion and greenhouse gas emissions • New challenges under climate change conditions • Sewer as the first barrier for water recycling • Workshop 1- Prediction of hydrogen sulfide production day 2 Sewer processes: modeling and

measurement • Modelling sulfide production and emission from sewers • Modelling methane production and emission • Sampling and off-line chemical analysis • Liquid and gas phase measurement using on-line sensors • Measuring odour and quantifying odour impacts • Workshop 2: Modelling as a tool for corrosion and odour management

day 3 Technologies, maintenance and planning

Go to www.iwes.com.au for the extended course outline

• Chemical dosing for emission control in sewers • Corrosion control in sewers • Air phase treatment - biofilters, chemical scrubbers, activated carbon • Inflow and infiltration - causes, measurement, assessment • Ventilation design and operation • Odour assessment and control innovations • Workshop 3 - Design of a biological filter

who should Attend?

what do you get ?

• Engineers and managers

• Fundamental understanding of the principles underpinning sewer processes • Practical skills and knowledge to take back to your workplace • Course notes and resource material • Real field data, exercises and case studies • Exposure to world-leading sewer models • Access to world leading practitioners

involved in sewer systems • Local governmental officers • Consulting engineers providing services on sewers • Regulatory agency officers and researchers

Presenters: Josef Cesca and Zhiguo Yuan l

Wed 11

Thurs 12

Fri 13

Odour Assessment and Management This course provides a practical grounding in the principles of odour measurement (source and ambient), assessment and control. Odour is a challenging issue in many communities, involving both technical and social complexities. The course includes site visits and workshop sessions. It uses extensive reference to case studies to illustrate the principles. Now running over 3 days, this course will take you from the basic principles through to complex real-world situations where those principles can be seen at work.

issues addressed day 1 The principles • The human odour response • Odour sources and generation mechanisms • Quantification: sampling and measurement issues • Emissions estimation and dispersion modelling • Workshop 1 - Odour modelling and evaluation

day 2 Regulation and management • Odour impact assessment principles • Regulatory approaches to odour management • Control technologies and design principles • Practical management principles • Plant visit to an operational site where odour is an important issue

day 3 Real world issues • The odour laboratory – how are odour samples handled, analysed and evaluated ? • Workshop 2 - New source proposal with cumulative impacts • Workshop 3 - Prosecution for odour offence

what do you get ?

Go to www.iwes.com.au for the extended course outline

who should Attend? Anyone who wants an excellent grounding in the principles of odour measurement, assessment and control. Including environmental managers, air quality managers, regulatory agency officers, local government environmental officers, consultants and researchers.

• Access to leading Australian odour practitioners • Course notes and resource material • Three intensive workshop sessions based on real case study material • Practical understanding and tools to help you address odour management problems in your workplace • Australian case studies and exercises • Field activities including visits to an odour lab and an operating plant

Presenters: Robin Ormerod and Geordie Galvin l

Mon 9

Tues 10

Wed 11

Principles of Air Quality and Emissions Management This course provides a practical grounding in the principles of air quality assessment, measurement, modelling, control and regulation. It includes reference to greenhouse gas emissions and provides an overview of current climate science and developments in carbon emissions control. Air quality management operates at scales from the facility level, to the regional airshed to the total atmosphere. The course will make use of case studies at all scales to provide some practical skills, and is presented by experienced practitioners.

issues addressed day 1 The principles • What is air quality and what affects it ? • Emission sources and their behaviours • Typical source behaviours and their implications • Greenhouse gases: sources and effects on climate • Source sampling and measurement issues • Ambient air quality measurement • How to estimate emissions and model their impacts • Principles of air quality modelling

Go to www.iwes.com.au for the extended course outline

day 2 Regulation and management • Impact assessment principles • Regulatory approaches to air pollution management • Greenhouse gas management • The price of carbon and the value of emissions estimation • Control technologies and design principles • Engineering solutions to reduce emissions: incl. filtration, scrubbing, incineration • Practical management principles – maintenance and housekeeping what do you get ?

who should Attend? Anyone wanting an excellent introduction to the principles of air quality and emissions management. Including environmental managers, air quality managers, regulatory agency officers, local government environmental officers and consultants.

• Access to leading Australian practitioners in air quality management • Course notes and resource material • Workshop sessions based on real case study material and exercises • Practical understanding and tools to help you address air quality management problems in your workplace

Presenters: Robin Ormerod, David Arbuckle & Bethany Warren l

Thurs 12

Fri 13

The Presenters David Arbuckle David has 15 years experience in the measurement of emissions and air quality. He established New Environmental Quality (newEQ), a company dedicated to emissions measurement and air quality monitoring, in 2006. He has extensive hands-on experience with the testing and analysis of emissions and

has worked on a wide range of industrial, mining and public utility facilities throughout Australia and offshore. He has received specialist training in testing methods in the US and Europe, and regularly updates his skills via continuing training workshops in the US.

Konstantinos Athanasiadis Konstantinos leads the Brisbane Office Industrial Water and Waste at GHD. He has 15 years professional experience as an engineer with a particular emphasis on industrial water and wastewater management. This covers option studies, troubleshooting, pilot plants, concept and detailed design, specification, tendering, installation and commissioning. Konstantinos has an international reputation

and is an invited reviewer for several leading international scientific journals. He was recently awarded the Lord Mayorâ&#x20AC;&#x2122;s Leaders of Innovation 2010 Award for demonstrating a high degree of leadership in Product Innovation contributing towards the long term economic growth of Brisbane.

Damien Batstone

Dr Damien Batstone is an Associate Professor at the Advanced Water Management Centre, The University of Queensland. Previously, he was an Associate Professor in Environment and Resources, Technical University of Denmark. He has a very strong international presence for his work in a wide range of areas, including industrial wastewater treatment, biofuel

production, process optimisation and control, modelling of anaerobic digestion, biosolids treatment and removal of organic pollutants. Damien is an experienced teacher, and he has also consulted extensively in Europe and Australia.

Cara Beal Cara Beal is a Research Fellow at the Smart Water Centre, Griffith University where she manages research into urban water end use analysis. Prior to this appointment Cara worked in Qld DERM on various aspects of sustainable urban and decentralised water management including the development of a pilot project

for urine separation toilets at the Currumbin Ecovillage. This followed on from her PhD work on the hydrogeochemistry of septic absorption trenches, on which she became an acknowledged world expert.

The Presenters Arran Canning Arran is the Water Quality Product Manager for Seqwater, responsible for the overall drinking water quality management for the organisation which includes 47 water treatment plants. A part of this role includes the implementation of the Australian Drinking Water Guidelines (2004) for the whole system in the context of the Water Supply (Safety and Reliability) Act 2008 (Qld). He has extensive experience in the practical implementation of risk management

frameworks in South East Queensland. Previously, Arran worked for Gold Coast Water as the Coordinator of Product Quality, where he was responsible for the risk management systems, including HACCP, for a catchment to tap water supply, recycled water systems, wastewater systems and trade waste management.

Josef Cesca Josef is a recognised national expert in air and odour emissions control and permitting for municipal and industrial applications and wastewater collection and treatment systems. He is currently the Technology Leader for Odour and Air Quality in the Asia Pacific Region for CH2M HILL, and has over 20 years experience in odour control and measurement in wastewater collection systems and treatment

facilities. He has been responsible for the review of systems to identify odour generation causes and assessment of odour impacts, and has implemented various emission control technologies at over 100 sites. This work has involved the design and commissioning of some of the largest biotechnology odour control systems in Australia.

Heather Chapman

Dr Heather Chapman has been involved with urban water research and management for the last 12 years with significant experience in water recycling R&D. She is an Associate Professor and Program Leader for the Health and Environment Program in the Smart Water Research Facility located at Griffith University in Brisbane. From 2003 – 2008 she was the program leader for the Sustainable Water

Sources program in the CRC Water Quality and Treatment. She was a member of the working group who developed the Australian Guidelines for Water Recycling, Phase 1 and contributed significantly to the supporting work behind the Phase 2 guidelines, Augmentation of Drinking Water Supplies ( EPHC/NRW/NWC, 2008 ).

Bill Clarke Bill Clarke is Professor and Thiess Chair in the Schools of Civil and Chemical Engineering at The University of Queensland. Professor Clarke is the Director of the Centre for Solid Waste Bioprocessing, a new centre at UQ focussed on the recovery of energy and material from waste. He is a Civil Engineer (Uni Sth Aust) with MSc in Env Eng (Notre Dame, USA) and PhD in Chemical Engineering (UQ). The focus of the Centre and Professor Clarke’s research is on practical methods for rapidly degrading solid organic waste. In particular, he is interested in

combining landfill technology and reactor design principles to develop packed bed digestion systems such as the BiocellTM, a bladder digestion system for MSW derived organic waste that is currently being commercialised by Thiess Services. Professor Clarke’s research group is also active in the fields of H2 production from organic waste, the utilisation of solid organic waste in the mining and mineral processing industries and the on-site digestion of combined wastewater and solid organic waste.

The Presenters Daniel Deere Dan Deere is a water quality scientist with Water Futures Pty Ltd, specialising in quantitative and water cycle risk assessment and risk management planning. He also works part - time for the CRC for Water Quality and Treatment as the Catchments Research Program Leader. He has worked in scientific roles in the UK, Sydney and Melbourne as an academic research fellow and consultant, specialising in microbial water quality monitoring and process validation. More recently, he has worked in technical management roles in water utilities in

Melbourne and Sydney. Dan has provided training in the ADWG Framework, Water Safety Plans (WHO), the Australian Guidelines for Water Recycling Framework and Hazard Analysis and Critical Control Points (HACCP) across Australia, Asia and in Europe. He holds Lead Auditor status and is an Auditor Skill Examiner under the RABQSA Drinking Water Quality Management System (DWQMS) certification scheme.

Stuart Dever Stuart Dever is a Principal Engineer with GHD and visiting academic at The University of NSW. He has 20 years’ experience working on a wide variety of landfill projects in Australia, the South Pacific, and Malaysia. Stuart’s work experience has included provision of advice to the Department of Climate Change and Energy Efficiency on the NGER methods for landfills, evaluation of landfill gas generation and emissions using a range of models, including the NGERS solid waste calculator;

evaluation of the financial liability of landfill methane emissions under the proposed carbon price scheme; direct measurement of landfill gas emissions; assisting EPA Victoria revise the landfill gas management sections of the BPEM. Stuart has also provided expert witness evidence in relation to a number of landfill developments in the NSW Land and Environment Court and at a number of Commission of Inquiries.

Mary Drikas Mary Drikas has been the Principal Research Chemist of the Water Treatment Unit in the Australian Water Quality Centre (AWQC) since 1987. She was appointed Program Coordinator of the Water Technology Program within the Cooperative Research Centre for Water Quality and Treatment (CRCWQT) which was formally established in July 1995, with responsibility for managing water treatment projects nationally. In her role at the AWQC, Mary leads one of the most influential and respected water treatment

research groups in Australia. She has over 25 years experience in water treatment and has personally led projects researching a variety of processes. She has also been involved in the development of innovative processes such as biological activated carbon using ozonation and UV irradiation, methods for determining assimilable organic carbon and is a co-patentor of the magnetic anion exchange resin (MIEX®) for the removal of natural organic matter.

The Presenters Paul Durrant Paul Durrant is Manager Environmental Services at Waste Solutions Australia Pty Ltd. Paul is an engineer and has spent the last 16 years working with large corporate organisations world wide. Paul’s interest lies in contaminated land, where he has worked on projects specialising in contaminated land management, providing contaminated land assessments and consulting on contaminated land remediation and site management plans. His regular clients

consist of civil developers, utility suppliers, town planners and land owners through to local and federal government. Paul came to WSA from his own successful environmental consulting firm. Using his diverse background, Paul endeavours to implement environmental services to clients based on his personal understanding of business needs and commercial pressures.

David Fligelman

David is a chemical engineer specialising in the planning, design and optimisation of wastewater and recycled water treatment plants. He has delivered process designs and technical leadership for biological nutrient removal (BNR) systems with a combined treatment capacity of approximately 1,000,000 EP. Recent projects include the BNR plants at Murrumba Downs, Merrimac, Wacol, and Pimpama. He has an extensive experience in both design and operation of BNR plants. David now runs his own engineering consultancy, Tyr Group, based in Brisbane. From 2000-

2006, David was the Senior Process Engineer with MWH in Qld, where he was the Lead Process Engineer or Project Manager on over 20 wastewater treatment projects. Prior to this, David was the Process Engineer for Yarra Valley Waters 10 wastewater treatment plants and two odour control facilities. Outside of BNR, David’s papers on advanced biosolids treatment, pathogen removal for water recycling, and carbon accounting reflect his passion for wastewater’s value as a resource.

Jeff Foley Jeff is Manager of GHD’s Integrated Water Systems team in WA, and a principal process engineer, with over eleven years’ experience in the areas of wastewater treatment, odour control, life cycle assessment and greenhouse gas emissions. He also holds a PhD from the Advanced Water Management Centre (UQ) on the Life Cycle Assessment of Wastewater Treatment Systems, with a special focus on fugitive methane and nitrous oxide greenhouse gas emissions.

For the past five years, Jeff has acted as the principal technical advisor to the Water Services Association of Australia, in their negotiations with the Department of Climate Change on industry concerns regarding measurement and liability issues under the National Greenhouse and Energy Reporting System (NGERS). He was the principal author of the recently released WSAA report on NGERS Guidelines for the Water Industry.

Ted Gardner Ted Gardner is a part-time Senior Research Fellow at Central Queensland University where he works on a broad range of water issues. He recently retired as a Principal Scientist from DERM (Qld. Department Environment & Resource Management) and CSIRO where he led research into the urban water cycle,

focusing especially on alternative water sources. He has published extensively in the area of decentralised water & wastewater systems. Ted was awarded the Australia Day Public Service Medal in 2005 for his work on urban water recycling.

The Presenters Geordie Galvin Geordie Galvin is a Principal Environmental Engineer with PAEHolmes and is also odour practice leader. He has over 12 yearsâ&#x20AC;&#x2122; experience in air quality assessment. He has completed numerous air quality studies including projects involving wastewater treatment plants, chicken farms, piggeries, cattle feedlots, ethanol plants, soil conditioning operations, and alumina refineries. He has consulted to local and state government agencies throughout Australia and to

universities in the United States. Geordie has also given numerous invited workshop presentations on odour sampling and analysis in the United States and Australia. Geordie is a Member Engineer of the American Society of Agricultural and Biological Engineers and the Clean Air Society of Australia and New Zealand (CASANZ). Geordie is currently the deputy chair of the odour special interest group (OSIG).

Peter Griffiths Peter is a chemical engineer and principal technologist with CH2M HILL. He has thirty years experience in wastewater treatment with the past twenty five years focussing on the development and optimisation of biological nutrient removal systems in Australia. Plants designed by Peter include the early Bendigo BNR plant, and plants in New South Wales and Queensland. In total, Peter has designed BNR plants which serve a population of over half a million EP and are successfully achieving their effluent quality requirements.

Peter has presented internationally and published research papers in internationally refereed journals on topics including denitrification, proliferation of Glycogen Accumulating Organisms, optimisation of process configuration, solids production in BNR and solids stabilisation. Peter is an experienced presenter and has taught courses at Griffith University for the past 10 years.

Mike Johns Mike is the Director of Johns Environmental â&#x20AC;&#x201C; a specialist environmental consulting company focussed on industrial wastewater treatment and recycling issues. He has 25 years experience consulting on water and wastewater issues of concern to Australian and New Zealand. His speciality is providing innovative process design and troubleshooting for wastewater plants discharging to rivers, land and sewer and quality reuse. Mike has worked for 15 years at the Department of Chemical Engineering,

The University of Queensland conducting research into biochemical processes and crystallisation technologies including struvite. Mike continues to provide technical advice for the environmental R&D program for Australian red meat processors under contract to Meat & Livestock Australia. Mike has been a regular lecturer at IWES courses, and he is regarded as an engaging and inspirational speaker.

Ben Kele Ben Kele is the Principal of Midell Water, a consultancy company that specialises in the design & operation of decentralised water & wastewater technologies at cluster scale or larger, particularly those located in environmentally sensitive environments. Midell Water recently designed & constructed the sewage treatment facility at the Woodford

Folk Festival which successfully treats the effluent from 150,000EP over a 6 day period. Ben is completing his PhD thesis on the use of zeolites for wastewater treatment, and also lectures part time for Central Queensland University.

The Presenters Stuart Khan Stuart Khan is a Senior Research Fellow at the UNSW Water Research Centre where he leads the research stream on trace organic contaminants in water. Much of his recent research has been focused on the presence and fate of trace chemical contaminants in wastewater and recycled water systems. Stuart currently holds a Fellowship from the National Water Commission to investigate

techniques for the quantitative assessment of chemical risks in water recycling schemes. He is also a member of the Water Quality Advisory Committee appointed by the National Health and Medical Research Council to advise on issues including indirect potable water recycling.

Andrew King Andrew has twenty five years of engineering experience, primarily in the oil and gas and wastewater sectors. He has worked in industry, government and as a consultant â&#x20AC;&#x201C; where he is currently a director of the consulting company EECO. During the last ten years he has worked with Origin and has been intimately involved with the development of their Coal Seam Gas

fields and the management of associated water. His formal qualifications include a BE (Chem), MEngSc (Env) and a PhD (Chem). He is a member of Engineerâ&#x20AC;&#x2122;s Australia and the immediate past chair of the Queensland Chapter of the Society for Sustainability and Environmental Engineering.

Paul Lant

Paul is Professor and Head of the School of Chemical Engineering at The University of Queensland. He has an international reputation for his research in biological wastewater treatment. His formal qualifications include a MEng and PhD from Newcastle University (UK) and an MBA from The University of Queensland. He was a co-founder of the Advanced Water Management Centre, which is widely

acknowledged as the leading R&D group in biological wastewater treatment in Australia. He is also a Director of Wastewater Futures Pty Ltd, a wastewater technology company which specialises in wastewater treatment solutions for industrial applications. Paul is an experienced lecturer and he has been the recipient of national teaching awards. Paul is the Director of IWES.

Greg Leslie Greg Leslie is an Associate Professor of Chemical Engineering at The University of New South Wales. Greg was previously the Membrane Technology and Water Reuse Leader for CH2M Hill in the Asia Pacific Region. Recent CH2M Hill experience includes process design lead for two dual membrane reclamation plants for the Singapore Public Utilities Board, project manager for stormwater reuse project at Singapore Changi Airport and project manager for an international survey of membrane bioreactors for the South Australian Water Corporation.

Prior to joining CH2M Hill he was employed with the Orange County Water District in Fountain Valley, California as a Sr. Engineer working on the Groundwater Water Replenishment System, a US$350M indirect potable water reuse project. His involvement in this water reuse project spanned six years and included project planning, pilot and demonstration plant studies, environmental review process, health risk assessment and preliminary design studies.

The Presenters Chris Lund Dr Chris Lund is Principal and Director of Climate Change Response. Until recently he was Principal Sustainability Consultant with GHD where he coordinated the company wide climate change and greenhouse gas management services. He has 20 years multidisciplinary experience in the areas of sustainable energy and greenhouse gas management including teaching, research and consulting. More recently he has

experience in eco-efficiency and triple bottom line corporate sustainability. Chris is also an adjunct Professor in the Curtin University Sustainability Policy Institute and an adjunct Associate Professor in the School of Engineering and Energy at Murdoch University.

Gayle Newcombe Gayle Newcombe is the Research Leader of the Applied Chemistry Unit of the Australian Water Quality Centre and holds an Adjunct Associate Professor position at the University of South Australia. Dr. Newcombe completed two research degrees (M. App. Sci., PhD) in the area of surface chemistry. Her PhD thesis described surface chemistry involved in the adsorption of natural organic material onto activated carbon.

Gayle has worked in the drinking water industry for 18 years, leading, research projects investigating activated carbon treatment and ozonation of taste and odour compounds, NOM and algal toxins. She is the author or co-author of over one hundred publications on different aspects of drinking water treatment.

Robin Ormerod Robin Ormerod has worked for 30 years as an air quality and atmospheric science consultant. He has served as the Convenor of the Odour Special Interest Group of the Clean Air Society of Australia & New Zealand and is currently the Convenor of the CASANZ Modelling Special Interest Group. Robin co-founded Pacific Air & Environment (now PAEHolmes), a leading Australian consultancy in air quality and

emissions management and, more recently, cofounded Pacific Environment Limited. Robin has consulting experience across a broad spectrum of industry and has consulted extensively to governments on air quality and odour. He has published on odour and air quality and has a long history of training and teaching experience.

Steven Pratt Steven is a Lecturer in Chemical Engineering at The University of Queensland. He is a chemical engineer with a PhD in wastewater engineering, and has expertise in industrial wastewater treatment and environmental biotechnology. Prior to working at UQ, Steven worked as a Lecturer at Massey University, NZ, where he consulted to local government and the dairy industry on sustainable wastewater treatment, focusing on passive wastewater

treatment systems and energy recovery from domestic and agricultural wastes. Steven is driving a variety of exciting research projects, including producing algal biodiesel and biodegradable polymers from industrial effluents. He is a co-developer of the TOGA Sensor, an innovative high-tech instrument which enables greater insight into biological processes.

The Presenters Bob Seviour Bob Seviour is Professor of Microbiology at Latrobe University (Bendigo). His main research interests are in activated sludge microbiology, and he has published more than 160 papers in refereed international journals and co-edited the book Microbiology of Activated Sludge. He is a member of the editorial board of the

Journal of Applied Microbiology and Antonie van Leeuwenhoek Journal of Molecular and General Microbiology. Bob consults widely for the wastewater industry and is a guest lecturer at other courses on Activated Sludge Microbiology.

Paul Smith Paul is Director and Principal Consultant of Waste Solutions Australia Pty Ltd. Paul established WSA in 1988 to provide services in key environmental management disciplines including hydrogeological assessment, waste management and contaminated land remediation. He has worked throughout Australia and South-East Asia in a variety of service sectors. Paul has over 30 years of experience in

hydrogeology and the assessment of groundwater resources, and is regularly sought as an expert witness. Some current projects include monitoring and assessing the impact of a clients borefield on a sub-basin of the Great Artesian Basin, assessing final void monitoring for a coal mine, and monitoring and reporting annually on the groundwater resources under a hazardous waste treatment facility.

Helen Stratton

Helen Stratton is a wastewater microbiologist and has 15 years experience in wastewater research, acquiring an understanding of technical, microbiological, social and economic issues that the industry faces. Dr Stratton has published over 30 refereed articles in wastewater and water microbiology journals and several more reports and conference proceedings. She has spent the

past 12 years at Griffith University as a Research Fellow and Lecturer in microbiology. She is an invited Lecturer at the University of Bonn in Germany, where she delivers a course on water microbiology each year. Helen has spent 12 years on the AWA QLD Branch committee and is the immediate past President of AWAQ.

Daryl Stevens Daryl is one of Australiaâ&#x20AC;&#x2122;s leading experts in the use of recycled water in amenity and production horticulture. He is a Principal Scientist with Atura Pty Ltd, and he provides project coordination and scientific services for the Environmental Risk Component of the National Guidelines on Water Recycling, and is the National Coordinator for Recycled Water Development in Horticulture. He was also an advisor to the World Health Organisation.

His research has won several industry and university awards for excellence, and his expertise in the area of recycled water is recognised nationally and internationally. During his research career, Daryl has contributed significantly to more than 100 scientific papers, conference proceedings, technical reports and books.

The Presenters Stephan Tait Dr Stephan Tait is a Research Fellow at the Advanced Water Management Centre at The University of Queensland. Until recently, Stephan worked as a consulting engineer at GHD in Australia and Hong Kong. Stephanâ&#x20AC;&#x2122;s research is in the use of water and wastewater chemistry principles to monitor and control anaerobic digestion, to predict and control chemical scale formation in wastewater treatment plants, and to optimise chemical dosing for chemical nutrient removal.

He is Secretary for the IWA Taskgroup for Physicochemistry, an international group that are translating sound water chemistry principles into wastewater engineering and modelling practice. Formal qualifications include a Bachelor of Chemical Engineering, and a PhD in biochemical precipitation, both from UQ. He is a chartered professional engineer with the Institution of Chemical Engineers.

Simon Toze Simon Toze is a Research Group Leader with CSIRO Land and Water in the Urban and Industrial Water Research Theme. He also leads the Indirect Potable Recycling research area for the CSIRO Water for a Healthy Country Flagship. He obtained his PhD in Microbiology from The University of Queensland in 1992 and has been working

with CSIRO since 1994 on a range of water based topics. His current principal research focus is on the reuse of water in urban environments, in particular involving Indirect Potable Reuse and Managed Aquifer Recharge.

Nikolay Voutchkov Nikolay Voutchkov is a recognised world leader in desalination technology. He has over 25 years of experience in planning, environmental review, permitting and implementation of large seawater desalination, water treatment and water reclamation projects globally. He has extensive expertise with all phases of seawater desalination project delivery. Nikolay is President of Water Globe Consulting, a private company

specialising in providing expert advisory services for seawater desalination and reuse. Previously, he was Chief Technology Officer and Corporate Technical Director for Poseidon Resources. He has published numerous technical articles in the field of water and wastewater treatment and reuse, and is co-author of several books on membrane treatment and desalination.

Troy Walker Troy Walker is the Technical Manager for Veolia Water Australia/New Zealand. Prior to this, Troy has worked as the Technical Manager for Veolia Water in Qld which oversaw operations of the Western Corridor Recycled Water and Gold Coast Desalination Plant operations. Troy has worked for the Veolia group of companies for over 12 years and has experience in the

design, commissioning and operation of membrane plants in Australia, New Zealand, the United States and Singapore. Prior to this Troy worked for 5 years with a membrane filtration technology company based in Australia. Troy is an experienced presenter and has taught at IWES for several years.

The Presenters Bethany Warren Bethany is an environmental engineer with PAEHolmes, working in the emissions estimation and regulatory reporting team as well as the atmospheric dispersion modelling team. She has extensive project experience across the industrial and mining sectors. Bethany received a Ph.D. in chemical and environmental engineering from the University of California, Riverside, where she worked at the UC Riversideâ&#x20AC;&#x2122;s Center for Environmental Research and Technology. She conducted research in atmospheric chemistry pertaining

to ozone and secondary particle formation at UCR CE-CERT Environmental Chamber. She has presented her work at multiple scientific and industry conferences and has been a university lecturer in California. Bethany has also worked at Pacific Gas and Electric and the Air Pollution Control District in San Luis Obispo. There she specialised in data acquisition, analysis and reporting, as well as permit management.

Joe Whitehead Joe Whitehead is an Environmental and Engineering Geologist with over 35 years experience in ground related problems, wastewater and waste management in Europe, North America and Australasia. He has wide experience in the design and management of decentralised wastewater systems and has prepared and delivered in excess of

100 professional short courses in on-site and decentralised wastewater management in Australia, New Zealand and the Pacific. Joe is Principal of Whitehead & Associates Environmental Consultants Pty Ltd, Director of the Centre for Environmental Training and an Adjunct Senior Lecturer at the University of Newcastle.

Herb Williams

Herb is the Principal Consultant for AEG Environmental, and over the last 18 years he has been the principal consultant for over 400 contaminated land projects covering audits, assessments, preparation of site management plans (SMPâ&#x20AC;&#x2122;s) and remediation programs. He is experienced in industrial petroleum chemistry, agricultural and soils chemistry, water quality chemistry and environmental chemistry. Clients have included national and international corporations, government departments, major

development groups and a wide range of smaller commercial, agricultural and industrial clients. Some examples include contamination audits and management protocols on 4 major shopping centres, 6 North Queensland sugar mills, over 60 quarries, batching plants, transport depots, bitumen plants, timber treatment plants, sand mining and crusher plants, explosives plants, and heavy metal contamination.

Zhiguo Yuan Zhiguo is a Professor in Environmental Engineering at The University of Queensland. He is an internationally leading expert on the modelling, optimisation and control of wastewater systems with over 200 publications in the field to date. Zhiguo is the current Chair of the IWA Specialist Group on Instrumentation, Control and Automation.

Zhiguo is currently leading a new national program on corrosion and odour management in sewers, which involves seven major Australian water utilities, four Australian universities, as well as several other Australian and international partners.

The Venue Surfers Paradise IWES Gold Coast 2012 will once again be based at Legends Hotel, Surfers Paradise. We will also be using modern high quality teaching rooms at the adjacent Q1 Resort and Watermark Hotel. The Gold Coast is just a 50 minute drive from Brisbane, the capital of Queensland and just 20 minutes from Coolangatta where there is a well-serviced airport. Only a two minute stroll to the beach, the venue is surrounded by fabulous international shopping, hundreds of cafes, bars and restaurants. IWES delegates qualify for a discounted room rate at Legends Hotel, the Watermark Hotel and Q1 Resort, which offers apartment accommodation. Contact Jenny at Event Solutions if you would like to book accommodation: Phone: + 61 7 3550 3100. Email: jenny@eventsolutions.com.au

Legends Hotel

Watermark Hotel and Spa Legends Hotel Cnr Gold Coast Highway and Laycock St Surfers Paradise Phone: + 61 7 5588 7888 www.legendshotel.com.au

Watermark Hotel and Spa 3032 Surfers Paradise Boulevard, Surfers Paradise Phone: +61 7 5588 8333 www.hotelwatermarkgoldcoast. com.au

Q1 Resort and Spa

Q1 Resort and Spa Hamilton Ave, Surfers Paradise Phone: 1300 792 008 www.q1.com.au

WaterAid WaterAid Australiaâ&#x20AC;&#x2122;s vision is of a world where everyone has access to safe water and effective sanitation. IWES is a corporate member of WaterAid. We are promoting the work of WaterAid to our clients, and there is an opportunity to forward your contact details to WaterAid on the Registration Form. WaterAid is an international NGO dedicated exclusively to the provision of safe domestic water, sanitation and hygiene education to the worldâ&#x20AC;&#x2122;s poorest people. WaterAid works by helping local organisations set up low cost, sustainable projects using appropriate technology that can be managed by the community itself. WaterAid is independent and relies heavily on voluntary support.

The Program Courses

Mon Tue Wed Thu Fri

l l l l l l l l l l Decentralised Wastewater Treatment l l l Principles of Wastewater Microbiology l l l Water & Wastewater Chemistry l l Drinking Water Treatment: Principles, Practice & Applications l l l Membrane Plant Design and Operation l l l l l Australian Drinking Water Guidelines l l Chemical Contaminants in Water l l Water Recycling: Design, Assessment & Optimisation l l l Principles of Hydrogeology and Groundwater Systems l l l Seawater Desalination l l l l Coal Seam Gas Water Management l l l Managing Climate Change: Water in a â&#x20AC;&#x153;Clean Energy Futureâ&#x20AC;? l l l How to Calculate Your Carbon Liability l l Reducing Greenhouse Gas Emissions From Landfills ll Anaerobic Digestion: Sustainable Biosolids Management l l Contaminated Site Assessment and Remediation l l l Corrosion and Odour Management in Sewers l l l Odour Assessment and Management l l l Principles of Air Quality and Emissions Management l l

1 Principles of Wastewater Treatment

2 Design of Biological and Advanced WWT Processes 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21

What is IWES ? Now in its 33 rd year, IWES is the largest and most successful continuing education program in Australia for professionals responsible for industry environmental performance. IWES courses are designed to keep busy professionals abreast of the latest environmental management trends. Courses are taught by leading industry practitioners and designed to keep busy professionals abreast of the latest trends, technologies and practices. Since 2008 we have run events annually in Sydney, Gold Coast, Melbourne and Perth, and in 2010 we ran our first event in Tasmania. We have averaged 660 delegates per annum through 2007-2011. IWES is owned by The University of Queensland.

Registration Form Gold Coast, Queensland, 9 - 13 July, 2012 Please register me for these courses No. of days

❑ 1 Principles of Wastewater Treatment ❑ 2 Design of Biological and Advanced Wastewater Treatment Processes ❑ 3 Decentralised Wastewater Treatment ❑ 4 Principles of Wastewater Microbiology ❑ 5 Water & Wastewater Chemistry ❑ 6 Drinking Water Treatment: Principles, Practice and Applications ❑ 7 Membrane Plant Design and Operation ❑ 8 Australian Drinking Water Guidelines ❑ 9 Chemical Contaminants in Water: Significance, Monitoring & Interpretation ❑ 10 Water Recycling: Design, Assessment & Optimisation ❑ 11 Principles of Hydrogeology and Groundwater Systems ❑ 12 Seawater Desalination ❑ 13 Coal Seam Gas Water Management ❑ 14 Managing Climate Change: The Water Industry in a Clean Energy Future ❑ 15 How to Calculate Your Carbon Liability ❑ 16 Reducing Greenhouse Gas Emissions From Landfills ❑ 17 Anaerobic Digestion: Sustainable Biosolids Management ❑ 18 Contaminated Site Assessment and Remediation ❑ 19 Corrosion and Odour Management in Sewers ❑ 20 Odour Assessment and Management ❑ 21 Principles of Air Quality and Emissions Management

5 days 5 days 3 days 3 days 2 days 3 days 5 days 2 days 2 days 3 days 3 days 4 days 3 days 3 days 2 days 2 days 2 days 3 days 3 days 3 days 2 days

Cost of Registration ( AUD$ incl.GST ) No of days

$1600

$2300

$2800

$3150

$1750

$2500

$3100

$3450

Discounts for organisations registering multiple delegates 2 - 3 delegates = 5%

4 - 5 delegates = 10%

6 and over = 15%

All registrations are attached to confirm this discount as per Item 3 in the ‘terms and conditions’

See over for paymenr details

Registration Form Gold Coast, Queensland, 9 - 13 July, 2012 Registration Details First name Dr Mr Mrs Ms Last name Organisation Address Phone

Yes I would like to find out more about WaterAid, and authorise IWES to forward my contact details

Payment Details I have enclosed a cheque made payable to University of Queensland Or, I authorise you to debit my:

Visa

Mastercard

Or, our Company Purchase Order Number is:

Please forward a Tax Invoice

Cardholders Name: Card number: Amount:

Expiry date: / Signature

Send completed form to IWES by fax 07 3550 3150 Or post to PO Box 6127 Mitchelton Qld 4053 Email: info@iwes.com.au UQ ABN: 63 942 912 684 Credit Card payment must be signed by the Cardholder

Terms and Conditions 1. Cancellation of registration less than 3 weeks before the starting date of a course(s) will incur a cancellation fee of 50% of the course price. Alternatively, delegates may send a substitute. 2. While every attempt will be made to deliver all advertised courses, IWES reserves the right to cancel individual courses at short notice. 3. Only registrations submitted and invoiced in one batch qualify for multiple registration discounts.

What do people say about IWES? “Fantastic overview of so many different areas of wastewater treatment. The course linked both real life problems with theoretical concepts.” “it’s been fantastic because it’s been really practical knowledge that’s been shared. It’s great just being here and it’s well organised.” “Excellent presenters - Good mix of technical and practical experience. Very passionate about the subject.” “Excellent presenter - content, notes and personal experience were all excellent. Lots of valuable points about design and operation.” “I thought the course was excellent. Both the course content and the professionalism of the presenters were of a high standard. I would definitely be interested in doing more IWES courses.” “The stuff on the web site was correct...this course did pay for itself on Monday morning...” “Great presenters. Well organised material and stimulating problem - solving exercises ! “ “World leading lecturers ..... cutting edge technology discussed ..... practical, real world solutions” “Great presenters....good course structure and well integrated site visits”

Who will attend? Organisations which have sent delegates to IWES include: • ACTEW AGL • Air Liquide Australia • Aquatec Maxcon • Australian Antarctic Division • Australian Paper • Bluescope Steel • Brisbane City Council • Castlemaine Perkins Ltd • Central Highlands Water • CH2M Hill • Coca Cola Amatil • Country Energy, NSW • Dairy Farmers

• Enviroquip • EPA • Ergon Energy • Ford Motor Company • GHD • Gippsland Water • Gladstone Port Authority • Gold Coast Water • Holden Ltd • Hydro Tasmania • James Hardie • Kellogg, Brown & Root • Kimberly Clark Australia • Masterfoods Aust NZ

• Melbourne Water • Norske Skog • NSW EPA • SA Water • Shell, Clyde Refinery • South West Water Authority • Syskill International • SunWater • Sydney Water • Tarong Energy Corp • Veolia Water • Water Corporation of WA • Woodside Energy Ltd

Phone 1800 000 404 Email info@iwes.com.au www.iwes.com.au