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Main Authors: Häbig, Pascal, Dittler, Daniel, Fey, Maximilian, Müller, Timo, Mößner, Nikola, Jazdi, Nasser, Weyrich, Michael, Hufendiek, Kai
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2305.16285
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author Häbig, Pascal
Dittler, Daniel
Fey, Maximilian
Müller, Timo
Mößner, Nikola
Jazdi, Nasser
Weyrich, Michael
Hufendiek, Kai
author_facet Häbig, Pascal
Dittler, Daniel
Fey, Maximilian
Müller, Timo
Mößner, Nikola
Jazdi, Nasser
Weyrich, Michael
Hufendiek, Kai
contents Power-to-X (PtX) products constitute a promising solution component in the defossilisation of hard-to-abate sectors. Where direct electrification is not possible, they can find application as chemical feedstock, easy to transport energy carriers and storage. In this contribution, a modular system architecture for a highly automated operation of an offshore off-grid PtX production platform consisting of five layers (asset, control, communication, digital, application) is presented. The assumed advantage of such an off-grid platform is the good scalability worldwide as well as easy exploitation of renewable potentials in any location. Using the example of a power-to-methanol process, a simplified prototype is outlined.
format Preprint
id arxiv_https___arxiv_org_abs_2305_16285
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle A Modular System Architecture for an Offshore Off-grid Platform for Climate neutral Power-to-X Production in H2Mare
Häbig, Pascal
Dittler, Daniel
Fey, Maximilian
Müller, Timo
Mößner, Nikola
Jazdi, Nasser
Weyrich, Michael
Hufendiek, Kai
Systems and Control
93A14
C.0
Power-to-X (PtX) products constitute a promising solution component in the defossilisation of hard-to-abate sectors. Where direct electrification is not possible, they can find application as chemical feedstock, easy to transport energy carriers and storage. In this contribution, a modular system architecture for a highly automated operation of an offshore off-grid PtX production platform consisting of five layers (asset, control, communication, digital, application) is presented. The assumed advantage of such an off-grid platform is the good scalability worldwide as well as easy exploitation of renewable potentials in any location. Using the example of a power-to-methanol process, a simplified prototype is outlined.
title A Modular System Architecture for an Offshore Off-grid Platform for Climate neutral Power-to-X Production in H2Mare
topic Systems and Control
93A14
C.0
url https://arxiv.org/abs/2305.16285