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Online Solar Structure Design Training Course

AEDEI is a premier institution od Advance electrical Design Training with Online Green Hydrogen Plant Design Training . The Hydrogen Economy seeks to use hydrogen to replace fossil fuels for power generation and transport with a fuel that produces no carbon dioxide emissions. Hydrogen is used widely in the process industries. It is often produced at a considerable scale and often transported by pipelines from produces to users. The first modules of the course will review the current production and uses of hydrogen in the process industries which may be used as a basis for an emerging Hydrogen Economy. Modules on hydrogen production from renewable sources will outline the technology and costs of alternative approaches to the production of hydrogen. The cost will be critically compared to conventional production methods as they presently stand and with the incorporation of carbon capture and storage A module will address storage options and costs for small and large scale storage as gas or liquid hydrogen. Modules will address the approach to transport of hydrogen and the unit cost of the various options over short and long distances. The principal options considered will by pipelines, as compressed gas, as liquid or via an intermediate product such as ammonia or as a naphthene. Costs for transport over long shipping distances to markets in North Asia will be estimated for various options. The use and productivity of hydrogen fuel used in fuel cells for stationary and vehicle applications will be explained and the competitive advantages for hydrogen identified. A final module will develop case studies for hydrogen versus conventional fuels in various locations of interest for a fully developed hydrogen economy.


Key Feature of Online Green Hydrogen Plant Design Training

    Preliminary Plant Planning
  • Hydrogen application
  • Methodology of lower cost Hydrogen production& source of power supply
  • Implementation of hydrogen plant
  • selection hydrogen equipment’s )
  • selection & sizing electrolyzers
  • selection & sizing hydrogen tank.
  • selection & sizing compressors
  • The Mass shipping of hydrogen and storage
  • hydrogen production plant infrastructure design


Who should attend:
Anybody who wants to gain valuable hands-on experience, especially Civil Engineer, Electrical Engineer and mechanical engineers; electrical and general contractors, Solar Design Engineer,electrical designers, solar companies and solar industry professionals who want to further their knowledge of solar design.

Prerequisites: Participants should have a basic understanding of solar PV or basic solar design, PV installation or related experience.

What time:

  • Weekend Batch : Saturday and Sunday
  • Mode : Online
  • Regular Batch : Tuesday To Friday
  • Time : 4 Hours/per day (Flexible Timing as required)

How to Register: We offer the following options to register for this class. Class size is limited, so we recommend that you register early to guarantee a seat.

1. Online - click on the Enroll Now button below and register using a credit card or check card. You will be redirected to our online payment page for a safe, secure transaction. You will receive an email confirmation when the transaction is complete.
2. By phone – simply call us at (+91) 8467024957,7531923094 and we'll process your registration over the phone.
3. By whatApp on (+91) 8467024957,7531923094
4. Skype Id : aedei01



Syllabus of Online Green Hydrogen Plant Design Training

Module 1: Hydrogen application

  1. The Use of Hydrogen in Industries
  2. Hydrogen Safety
  3. Oil Refineries
  4. Petrochemicals
  5. The Use of Hydrogen in the Chemicals Industry
  6. Mobility

Module 2:Methodology of lower cost Hydrogen production& source of power supply

  1. The Production of Hydrogen from conventional methods ( Coal, gas, CNG , diesel etc)
  2. Production from Solar power plant energy
  3. Production from wind energy
  4. Selection of back up power source .

Module 3: Implementation of hydrogen plant

  1. Calculation of renewable energy ( solar , wind ) requirement
  2. Calculation of hydrogen production equipment load
  3. Sizing of solar/wind power plant capacity to meet hydrogen load demand
  4. Selection of site to fulfill demand of energy for hydrogen production
  5. Selection of hydrogen plant location.
  6. Identification of electrical network
  7. Energy storage system

Module 4 : selection hydrogen equipment’s

  1. Major components of hydrogen production
  2. Selection scheme of hydrogen production
  3. Prepare outline of hydrogen plant
  4. Calculate theoretical calculation of hydrogen production
  5. Calculate losses and equipment efficiency.
  6. Load requirement of equipment’s.

Module 5 : selection & sizing electrolyzers .

  1. Type of electrolyzers and capacity and sizing
  2. Difference between polymer electrolyte or proton exchange membrane (PEM) electrolyzers
  3. Sizing and selection membrane for hydrogen production
  4. Selection of alkaline electrolysis cells and PEM electrolysis
  5. Selection Solid oxide electrolysis cells
  6. Key selection parameters of electrolysis : current density ,work pressure , operating temperature, hydrogen purity , Export component and Volume and weight.
  7. Working of hydrogen separator and oxygen separator
  8. Selection of water quality for hydrogen production

Module 6 : selection & sizing hydrogen tank.

  1. Specification of hydrogen tank
  2. Calculate capacity of hydrogen tank
  3. Selection of storage hydrogen tank
  4. Key parameters of hydrogen tank selection : max pressure withstand , temperature, storage capacity, type of material,Design Temperature
  5. Protection from leakage of storage tank.

Module 7 : Selection & Detailing of compressors for Hydrogen Plant

  1. Architecture of Piping Arrangement
  2. Selection of Compressors
  3. Pressure Valve ,Pressure indicators, Gas Outlet & Inlets Valves
  4. Tank Placement and Size

Module 8 : The Mass shipping of hydrogen and storage

  1. Cost of Ships and Shipping
  2. Transport of Hydrogen as an Intermediate - Ammonia and hydrocarbons

Module 9 : hydrogen production plant infrastructure design

  1. Selection switchgear of hydrogen equipment
  2. Sizing of cabling for electrical equipment’s
  3. Illumination system design
  4. Earthing design of hydrogen plant
  5. Selection and sizing auxiliary supply and main supply system

Module 10: Case study

  1. Preparation of electrical power distribution scheme
  2. Preparation of source scheme with solar power plant
  3. Preparation of one line diagram of hydrogen plant
  4. Preparation of lay outing of hydrogen plant