Renewable Energy > Principles of Proton Exchange Membrane (PEM) Electrolyser Operation Technology for Producing Clean and Sustainable Hydrogen
Code Date Format Currency Team of 10
Per Person*
Team of 7
Per Person*
Early Bird Fee
Per Person
Normal Fee
Per Person
PWR1255 27 - 29 May 2024 Kuala Lumpur, Malaysia SGD 3,182 3,330 3,500 3,700
PWR1255 27 - 29 May 2024 Kuala Lumpur, Malaysia USD 2,493 2,609 2,699 2,899

*Fee per person in a team of 7 or 10 participating from the same organisation, registering 6 weeks before the course date
Request for a quote if you have different team sizes, content customisation, alternative dates or course timing requirements
Request for in-person classroom training or online (VILT) training format

Learn in teams and save more! Enjoy group discounts of up to 50% off normal fees for team based learning. Contact us on [email protected] to learn more today!

Code

PWR1255

Date

27 - 29 May 2024

Format

Kuala Lumpur, Malaysia

Currency

SGD

Team of 10
Per Person*

3,182

Team of 7
Per Person*

3,330

Early Bird Fee
Per Person

3,500

Normal Fee
Per Person

3,700

Code

PWR1255

Date

27 - 29 May 2024

Format

Kuala Lumpur, Malaysia

Currency

USD

Team of 10
Per Person*

2,493

Team of 7
Per Person*

2,609

Early Bird Fee
Per Person

2,699

Normal Fee
Per Person

2,899

*Fee per person in a team of 7 or 10 participating from the same organisation, registering 6 weeks before the course date
Request for a quote if you have different team sizes, content customisation, alternative dates or course timing requirements
Request for in-person classroom training or online (VILT) training format

About this Classroom Training

Sustainable green hydrogen is entering the mainstream, offering immense potential as a clean, renewable energy vector that is the key to reducing carbon emissions across multiple sectors. Produced through electrolysis powered by renewable electricity, sustainable green hydrogen is gaining major momentum amid intensifying global decarbonization efforts.

With rapid advancements in Proton Exchange Membrane (PEM) electrolysis driving down costs dramatically, green hydrogen is now economically viable for transport, heating and energy storage applications. Leading corporations across sectors are ramping up investments in electrolysis to scale up green hydrogen production.

Through immersive sessions, participants will gain comprehensive technical knowledge to seamlessly integrate PEM systems across the energy transition. Participants will master the safety protocols for end-to-end hydrogen production, storage and handling via interactive exercises and simulations.

Participants will also assess real-world risks and technical opportunities through experiments, demonstrations and case studies under expert guidance. Uniquely designed, this course offers the perfect blend of technical knowledge and practical skills to give participants an unparalleled edge. With demand surging for professionals with cross-disciplinary PEM electrolysis expertise, this training prepares participants to thrive at the forefront of the booming green hydrogen economy.

  • List the six major dangerous properties of hydrogen and identify the applicable safety mechanisms for an acceptable safety integrity level (SIL).
  • Define the three hazardous zones and understand their implications to safety compliance.
  • Describe current best industry practices to enhance safety, efficiency, cost effective operation, simplified system designs, and reliability.
  • Generalise the full balance of plant of an advanced, Megawatt scale PEM Electrolyser and name pressure categories of systems.
  • Understand the electrochemical operation of a PEM Electrolyser Cell/ Stack and describe advanced design characteristics and industry standards of reliable stacks.
  • Distinguish purpose of and operation of the Water Purification System including water conductivity requirements.
  • Gain detailed knowledge of the dryer and deoxidiser, including other parts of the gas handling system and pressure control.
  • Analyse the make-up of the DC Power Supply Unit including voltage and current levels.
  • Differentiate the control system for automated generation and enhanced safety.
  • Chemical and Electrical Engineers who involve in chemical and electrical engineering.
  • Process Engineers specialising in process engineering can enhance their knowledge of the specific processes involved in PEM electrolysis, optimising efficiency and performance.
  • Design Engineers who  involve in the design of electrochemical systems.
  • Validation Engineers who  responsible for validating and ensuring the reliability and performance of PEM electrolysis systems.
  • EC&I Engineers (Electrical, Control, and Instrumentation) who specialise in electrical, control, and instrumentation aspects.
  • Project Engineers and Manager who involve in the planning, execution, and monitoring of projects related to hydrogen production.
  • Commissioning Engineers who responsible for commissioning and bringing PEM electrolysis systems into operation.
  • Test Engineers and Technicians who involve in testing and troubleshooting the performance of PEM electrolysis systems
  • Maintenance Engineers are who responsible for the upkeep and optimal functioning of PEM electrolysis systems.
  • Researchers who are in the fields of electrochemistry, energy, and related disciplines.
  • Environmental Scientists who concern with environmental sustainability and clean energy solution.
  • Renewable Energy Professionals who work in the renewable energy sector, especially those dealing with hydrogen production and storage.
  • Industry Professionals who work in industries related to hydrogen production, fuel cells, clean energy technologies, sustainable energy initiatives or those involve in technologies related to hydrogen production and storage.
  • Basic
  • Intermediate
  • Course material will be provided for future reference.
  • Each topic begins with a statement of the intended learning outcome (LO).
  • Activities such as quizzes, videos and assessment will be incorporated.

To further optimise your learning experience from our courses, we also offer individualized “One to One” coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable

Learn what past participants have said about EnergyEdge training courses

He has been a fundamental element in some of the SSoW we have seen implemented within ITM Power, which has originated from his training sessions and knowledge.

Global HSE Manager, McLaren.

I found that the general electrolyser principles course and the stack development training provided my colleagues with a broader understanding of the technical aspects of our products. This, in turn, helped them contribute to the further development of our products.

Senior Manager, ITM Power.

Leading a team of highly skilled engineers is critical to our core business. Ensuring that the engineers remain highly skilled is the key to success. The training delivered by him has been significant in ensuring that the most updated information, best practices, and core knowledge are conveyed to the team. The attention to detail, method of delivery, and passion that he has for hydrogen and developing people's understanding on a platform they can put into practice what they have learned is second to none. Thank you.

Operations Director, Motive Fuels.