Hydrogen Production in Alkaline Electrolysis with Cathodic Side PWM Application

Harm Lok; Marvin Bosker

Hydrogen Production in Alkaline Electrolysis with Cathodic Side PWM Application

Harm Lok, Marvin Bosker

Energy Transition

Research output: Book/Report › Report › Academic

2 Downloads (Pure)

Abstract

The Power to Flex project aims to promote the development of storage possibilities from sustainable energy sources. Hydrogen is opted to be a feasible energy carrier, which can also be stored for prolonged times without further losses and can be transformed into electricity and heat when needed. Producing hydrogen from electrolysis processes has a low CO2 footprint, however the efficiency at both the system, stack and cell level still increases due to further research and development.
Electrolysis is conventionally performed with direct current, of which the energy is usually supplied from the grid. Rectifiers are necessary to provide the energy source for electrolysis, which unfortunately waste some of the efficiency, albeit becoming more efficient. Although it is known that distortions, harmonics and ripple, in the current supply can cause decreased performance of the electrolysis, a fundamental understanding is often not provided in published research. Controlled modulation of the electrolysis process can however form a
possibility to enhance the performance of electrolysis

Original language	English
Number of pages	84
Publication status	Published - 20 May 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 07 Affordable and Clean Energy
SDG 09 Industry, Innovation, and Infrastructure

Keywords

sustainable energy sources
hydrogen
electrolysis
energy storage
efficiency

Research Focus Areas Hanze University of Applied Sciences * (mandatory by Hanze)

Energy

Publinova themes

Economics and Management
People and Society
Technology

Demonstratieopstelling voor alkaline waterstof productie
Lok, H., 22 Jun 2023, p. 1.
Research output: Contribution to conference › Poster › Professional

Open Access
File

Cite this

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abstract = "The Power to Flex project aims to promote the development of storage possibilities from sustainable energy sources. Hydrogen is opted to be a feasible energy carrier, which can also be stored for prolonged times without further losses and can be transformed into electricity and heat when needed. Producing hydrogen from electrolysis processes has a low CO2 footprint, however the efficiency at both the system, stack and cell level still increases due to further research and development. Electrolysis is conventionally performed with direct current, of which the energy is usually supplied from the grid. Rectifiers are necessary to provide the energy source for electrolysis, which unfortunately waste some of the efficiency, albeit becoming more efficient. Although it is known that distortions, harmonics and ripple, in the current supply can cause decreased performance of the electrolysis, a fundamental understanding is often not provided in published research. Controlled modulation of the electrolysis process can however form a possibility to enhance the performance of electrolysis",

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AU - Lok, Harm

AU - Bosker, Marvin

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AB - The Power to Flex project aims to promote the development of storage possibilities from sustainable energy sources. Hydrogen is opted to be a feasible energy carrier, which can also be stored for prolonged times without further losses and can be transformed into electricity and heat when needed. Producing hydrogen from electrolysis processes has a low CO2 footprint, however the efficiency at both the system, stack and cell level still increases due to further research and development. Electrolysis is conventionally performed with direct current, of which the energy is usually supplied from the grid. Rectifiers are necessary to provide the energy source for electrolysis, which unfortunately waste some of the efficiency, albeit becoming more efficient. Although it is known that distortions, harmonics and ripple, in the current supply can cause decreased performance of the electrolysis, a fundamental understanding is often not provided in published research. Controlled modulation of the electrolysis process can however form a possibility to enhance the performance of electrolysis

KW - sustainable energy sources

KW - hydrogen

KW - electrolysis

KW - energy storage

KW - efficiency

KW - duurzame energiebronnen

KW - waterstof

KW - electrolyse

KW - energie opslag

KW - efficiëntie

M3 - Report

BT - Hydrogen Production in Alkaline Electrolysis with Cathodic Side PWM Application

ER -

Hydrogen Production in Alkaline Electrolysis with Cathodic Side PWM Application

Abstract

UN SDGs

Keywords

Research Focus Areas Hanze University of Applied Sciences * (mandatory by Hanze)

Publinova themes

Fingerprint

Research output

Demonstratieopstelling voor alkaline waterstof productie

Cite this