Modelling Decentralized Hydrogen Systems: Lessons Learned and Challenges from German Regions release_zpa36tdk5vasjh5tdkdmgn4oou

by Charlotte Jarosch, Philipp Jahnke, Johannes Felipe Giehl, Jana Himmel

Published in Energies by MDPI AG.

2022   Volume 15, p1322

Abstract

Green hydrogen produced by power-to-gas will play a major role in the defossilization of the energy system as it offers both carbon-neutral chemical energy and the chance to provide flexibility. This paper provides an extensive analysis of hydrogen production in decentralized energy systems, as well as possible operation modes (H2 generation or system flexibility). Modelling was realized for municipalities—the lowest administrative unit in Germany, thus providing high spatial resolution—in the linear optimization framework OEMOF. The results allowed for a detailed regional analysis of the specific operating modes and were analyzed using full-load hours, share of used negative residual load, installed capacity and levelized cost of hydrogen to derive the operation mode of power-to-gas to produce hydrogen. The results show that power-to-gas is mainly characterized by constant hydrogen production and rarely provides flexibility to the system. Main drivers of this dominant operation mode include future demand for hydrogen and the fact that high full-load hours reduce hydrogen-production costs. However, changes in the regulatory, market and technical framework could promote more flexibility and support possible use cases for the central technology to succeed in the energy transition.
In application/xml+jats format

Archived Files and Locations

application/pdf   1.9 MB
file_adpo3hxklzcaxg6rq6caq4wqku
mdpi-res.com (publisher)
web.archive.org (webarchive)

Web Captures

https://www.mdpi.com/1996-1073/15/4/1322/htm
2022-05-02 07:12:48 | 51 resources
webcapture_bfmhugp3izdh7mx5n722fotx4a
web.archive.org (webarchive)
Read Archived PDF
Preserved and Accessible
Type  article-journal
Stage   published
Date   2022-02-11
Language   en ?
Container Metadata
Open Access Publication
In DOAJ
In ISSN ROAD
In Keepers Registry
ISSN-L:  1996-1073
Work Entity
access all versions, variants, and formats of this works (eg, pre-prints)
Catalog Record
Revision: 58b0d4a7-66df-4662-a259-5baba1d1c28c
API URL: JSON