Documenting Electrolyser Developers, Suppliers and Startups

Closed
H2-JTL Inc.
Canada
CEO
(5)
3
Project
Academic experience
80 hours per student
Student
Anywhere
Intermediate level

Project scope

Categories
Communications Market research
Skills
research
Details

The goal of this project is to document electrolyser developers, suppliers and startups, as well as their technologies and their customers. This will involve several different steps for the students, including:


- Researching and compiling a list of electrolyser developers, suppliers and startups.


- Investigating and documenting the technologies used by each of these companies.


- Identifying and documenting the customers of each of these companies.


- Creating a report outlining the findings of the research.


Deliverables

By the end of the project, students should demonstrate:


- Understanding of the electrolyser developers, suppliers and startups in the market.


- Understanding of the technologies used by each of these companies.


- Identification of the customers of each of these companies.


- A written report outlining the findings of the research.


Mentorship

An introduction of the project and electrolyser technology will be made to students and leaders via online meeting. Throughout the project, communications with students and leaders will be maintained via emails and phone calls. This is an unpaid project.

Supported causes
Climate action

About the company

Company
Canada
2 - 10 employees
Energy

H2-JTL Inc. develops the next generation electrolyser, JTL electrolyser for green H2 production in order to address climate change, which will be more commercially viable for energy transition from fossil fuels to renewables than current products. It will produce green H2 at higher pressure up to 200-300 bars without compression required for transport and storage, while the electrolysers currently on the market produce H2 primarily at pressure up to 10 bars. The JTL electrolyser will produce green H2 at lower cost than the current electrolysers resulting from its E-module novel design and simplified BOP. It will also be more responsive to renewable power and more suitable for both centralized and distributed H2 generation in comparison with electrolysers currently on the market.