Bidding optimization for hydrogen production from an electrolyzer

Nouf M. Almutairy; Ali T. Alawami

doi:10.21741/9781644903216-28

Bidding optimization for hydrogen production from an electrolyzer

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper presents a comprehensive study on the bidding optimization for hydrogen production from an electrolyzer, focusing on a single day comprising 24 hours. With the rising demand for clean energy sources, the research aims to optimize profitability and efficiency in hydrogen production. The primary objective is to maximize profit while ensuring the fulfillment of the targeted hydrogen production by the end of the day. The optimization formulation incorporates electrolyzer maintenance, electricity, and water consumption costs. The model considered two cases with different electrolyzer efficiency values to optimize power usage, allowing for a comprehensive analysis of hydrogen production optimization. Ramping limits are imposed to maintain power system stability and reliability, preventing sudden fluctuations. By solving the formulated equations and considering factors such as energy and water prices, the research findings demonstrate the effectiveness of the bidding optimization approach in optimizing resource utilization and maximizing profit. Notably, the model successfully achieves the targeted hydrogen production by the end of the day while maximizing profit. This research contributes valuable insights into the bidding optimization process for hydrogen production, highlighting the potential for economic and sustainable hydrogen generation from electrolyzers.

Original language	English
Title of host publication	Renewable Energy
Subtitle of host publication	Generation and Application-ICREGA 2024
Editors	Ala A. Hussein
Publisher	Association of American Publishers
Pages	214-222
Number of pages	9
ISBN (Print)	9781644903209
DOIs	https://doi.org/10.21741/9781644903216-28
State	Published - 2024
Event	7th International Conference on Renewable Energy: Generation and Application, ICREGA 2024 - Al Khobar, Saudi Arabia Duration: 21 Apr 2024 → 24 Apr 2024

Publication series

Name	Materials Research Proceedings
Volume	43
ISSN (Print)	2474-3941
ISSN (Electronic)	2474-395X

Conference

Conference	7th International Conference on Renewable Energy: Generation and Application, ICREGA 2024
Country/Territory	Saudi Arabia
City	Al Khobar
Period	21/04/24 → 24/04/24

Bibliographical note

Publisher Copyright:
© 2024, Association of American Publishers. All rights reserved.

Keywords

Bidding Optimization
Electrolyzer
Hydrogen Production
Sustainability

ASJC Scopus subject areas

General Materials Science

UN SDGs

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

Access to Document

10.21741/9781644903216-28

Cite this

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title = "Bidding optimization for hydrogen production from an electrolyzer",

abstract = "This paper presents a comprehensive study on the bidding optimization for hydrogen production from an electrolyzer, focusing on a single day comprising 24 hours. With the rising demand for clean energy sources, the research aims to optimize profitability and efficiency in hydrogen production. The primary objective is to maximize profit while ensuring the fulfillment of the targeted hydrogen production by the end of the day. The optimization formulation incorporates electrolyzer maintenance, electricity, and water consumption costs. The model considered two cases with different electrolyzer efficiency values to optimize power usage, allowing for a comprehensive analysis of hydrogen production optimization. Ramping limits are imposed to maintain power system stability and reliability, preventing sudden fluctuations. By solving the formulated equations and considering factors such as energy and water prices, the research findings demonstrate the effectiveness of the bidding optimization approach in optimizing resource utilization and maximizing profit. Notably, the model successfully achieves the targeted hydrogen production by the end of the day while maximizing profit. This research contributes valuable insights into the bidding optimization process for hydrogen production, highlighting the potential for economic and sustainable hydrogen generation from electrolyzers.",

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author = "Almutairy, {Nouf M.} and Alawami, {Ali T.}",

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year = "2024",

doi = "10.21741/9781644903216-28",

language = "English",

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series = "Materials Research Proceedings",

publisher = "Association of American Publishers",

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editor = "Hussein, {Ala A.}",

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address = "United States",

}

Almutairy, NM & Alawami, AT 2024, Bidding optimization for hydrogen production from an electrolyzer. in AA Hussein (ed.), Renewable Energy: Generation and Application-ICREGA 2024. Materials Research Proceedings, vol. 43, Association of American Publishers, pp. 214-222, 7th International Conference on Renewable Energy: Generation and Application, ICREGA 2024, Al Khobar, Saudi Arabia, 21/04/24. https://doi.org/10.21741/9781644903216-28

Bidding optimization for hydrogen production from an electrolyzer. / Almutairy, Nouf M.; Alawami, Ali T.
Renewable Energy: Generation and Application-ICREGA 2024. ed. / Ala A. Hussein. Association of American Publishers, 2024. p. 214-222 (Materials Research Proceedings; Vol. 43).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Bidding optimization for hydrogen production from an electrolyzer

AU - Almutairy, Nouf M.

AU - Alawami, Ali T.

PY - 2024

Y1 - 2024

N2 - This paper presents a comprehensive study on the bidding optimization for hydrogen production from an electrolyzer, focusing on a single day comprising 24 hours. With the rising demand for clean energy sources, the research aims to optimize profitability and efficiency in hydrogen production. The primary objective is to maximize profit while ensuring the fulfillment of the targeted hydrogen production by the end of the day. The optimization formulation incorporates electrolyzer maintenance, electricity, and water consumption costs. The model considered two cases with different electrolyzer efficiency values to optimize power usage, allowing for a comprehensive analysis of hydrogen production optimization. Ramping limits are imposed to maintain power system stability and reliability, preventing sudden fluctuations. By solving the formulated equations and considering factors such as energy and water prices, the research findings demonstrate the effectiveness of the bidding optimization approach in optimizing resource utilization and maximizing profit. Notably, the model successfully achieves the targeted hydrogen production by the end of the day while maximizing profit. This research contributes valuable insights into the bidding optimization process for hydrogen production, highlighting the potential for economic and sustainable hydrogen generation from electrolyzers.

AB - This paper presents a comprehensive study on the bidding optimization for hydrogen production from an electrolyzer, focusing on a single day comprising 24 hours. With the rising demand for clean energy sources, the research aims to optimize profitability and efficiency in hydrogen production. The primary objective is to maximize profit while ensuring the fulfillment of the targeted hydrogen production by the end of the day. The optimization formulation incorporates electrolyzer maintenance, electricity, and water consumption costs. The model considered two cases with different electrolyzer efficiency values to optimize power usage, allowing for a comprehensive analysis of hydrogen production optimization. Ramping limits are imposed to maintain power system stability and reliability, preventing sudden fluctuations. By solving the formulated equations and considering factors such as energy and water prices, the research findings demonstrate the effectiveness of the bidding optimization approach in optimizing resource utilization and maximizing profit. Notably, the model successfully achieves the targeted hydrogen production by the end of the day while maximizing profit. This research contributes valuable insights into the bidding optimization process for hydrogen production, highlighting the potential for economic and sustainable hydrogen generation from electrolyzers.

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KW - Electrolyzer

KW - Hydrogen Production

KW - Sustainability

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SN - 9781644903209

T3 - Materials Research Proceedings

SP - 214

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BT - Renewable Energy

A2 - Hussein, Ala A.

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ER -

Bidding optimization for hydrogen production from an electrolyzer

Abstract

Publication series

Conference

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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Cite this