Dataset accompanying the publication: Utilisation of waste heat from PEM electrolysers

Dataset accompanying the publication: Utilisation of waste heat from PEM electrolysers – Unlocking local optimisation

The doi above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
doi: 10.4121/21666152

Datacite citation style:

van der Roest, Els (2023): Dataset accompanying the publication: Utilisation of waste heat from PEM electrolysers – Unlocking local optimisation. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/21666152.v1

Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite

Dataset

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282

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244

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categories

keywords

(Green) hydrogen, District heating, Electrolysis, System integration, Waste heat

geolocation

Netherlands

time coverage

2010-2019

licence

CC BY 4.0

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by Els van der Roest

This dataset contains raw model results from 3 different scenarios as part of a publication

on the utilisation of waste heat from a 2.5 MW electrolyser.

It is being made public to act as supplementary data for publication(s) and the PhD thesis of Els van der Roest.

Also, it might be used by other researchers.

The dataset was created during model runs in the period between March 2022 - December 2022 as part of the H-Flex project.

Abstract of the paper (published in The International Journal of Hydrogen Energy):

Recovery of heat from electrolysers is potentially interesting to increase the total system efficiency, reduce CO₂ emissions, and increase the economic feasibility of both hydrogen and heat production. This study examines different designs for the utilisation of (waste) heat from a 2.5 MW_el polymer electrolyte membrane (PEM) electrolyser. Redundancy is important in the design, to ensure safe operation regardless of the heat demand of the heat consumer. We analysed cases with local heat consumption (with/without a heat pump) and coupling with a district heating network (DHN). Overall, 14-15% of the electricity input to the stack can be utilised by a heat consumer, increasing the total system efficiency to 90% (HHV) with CO₂-savings of 0.08 (DHN)-0.28 (direct use) tonne CO₂/MWh_heat,used. We performed a first-order techno-economic analysis showing that the levelized costs of the electrolyser heat (8.4-36.9 €/MWh) fall within the range of other industrial heat sources and below lower-temperature heat sources.

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