A geospatial method for estimating the levelised cost of hydrogen production from offshore wind

Quang Vu Dinh; Van Nguyen Dinh; Hadi Mosadeghi; Pedro H. Todesco Pereira; Paul G. Leahy

doi:10.1016/j.ijhydene.2023.01.016

A geospatial method for estimating the levelised cost of hydrogen production from offshore wind

Quang Vu Dinh
, Van Nguyen Dinh
, Hadi Mosadeghi
, Pedro H. Todesco Pereira
, Paul G. Leahy

Research output: Contribution to journal › Article › peer-review

Abstract

This paper describes the development of a general-purpose geospatial model for assessing the economic viability of hydrogen production from offshore wind power. A key feature of the model is that it uses the offshore project's location characteristics (distance to port, water depth, distance to gas grid injection point). Learning rates are used to predict the cost of the wind farm's components and electrolyser stack replacement. The notional wind farm used in the paper has a capacity of 510 MW. The model is implemented in a geographic information system which is used to create maps of levelised cost of hydrogen from offshore wind in Irish waters. LCOH values in 2030 spatially vary by over 50% depending on location. The geographically distributed LCOH results are summarised in a multivariate production function which is a simple and rapid tool for generating preliminary LCOH estimates based on simple site input variables.

Original language	English
Pages (from-to)	15000-15013
Number of pages	14
Journal	International Journal of Hydrogen Energy
Volume	48
Issue number	40
DOIs	https://doi.org/10.1016/j.ijhydene.2023.01.016
Publication status	Published - 8 May 2023

Keywords

Geographic information system
Green hydrogen
Hydrogen production in Ireland
LCOH
Offshore hydrogen production

UN SDGs

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

Access to Document

10.1016/j.ijhydene.2023.01.016

Cite this

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title = "A geospatial method for estimating the levelised cost of hydrogen production from offshore wind",

abstract = "This paper describes the development of a general-purpose geospatial model for assessing the economic viability of hydrogen production from offshore wind power. A key feature of the model is that it uses the offshore project's location characteristics (distance to port, water depth, distance to gas grid injection point). Learning rates are used to predict the cost of the wind farm's components and electrolyser stack replacement. The notional wind farm used in the paper has a capacity of 510 MW. The model is implemented in a geographic information system which is used to create maps of levelised cost of hydrogen from offshore wind in Irish waters. LCOH values in 2030 spatially vary by over 50\% depending on location. The geographically distributed LCOH results are summarised in a multivariate production function which is a simple and rapid tool for generating preliminary LCOH estimates based on simple site input variables.",

keywords = "Geographic information system, Green hydrogen, Hydrogen production in Ireland, LCOH, Offshore hydrogen production",

author = "Dinh, \{Quang Vu\} and Dinh, \{Van Nguyen\} and Hadi Mosadeghi and \{Todesco Pereira\}, \{Pedro H.\} and Leahy, \{Paul G.\}",

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doi = "10.1016/j.ijhydene.2023.01.016",

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AU - Dinh, Quang Vu

AU - Dinh, Van Nguyen

AU - Mosadeghi, Hadi

AU - Todesco Pereira, Pedro H.

AU - Leahy, Paul G.

PY - 2023/5/8

Y1 - 2023/5/8

N2 - This paper describes the development of a general-purpose geospatial model for assessing the economic viability of hydrogen production from offshore wind power. A key feature of the model is that it uses the offshore project's location characteristics (distance to port, water depth, distance to gas grid injection point). Learning rates are used to predict the cost of the wind farm's components and electrolyser stack replacement. The notional wind farm used in the paper has a capacity of 510 MW. The model is implemented in a geographic information system which is used to create maps of levelised cost of hydrogen from offshore wind in Irish waters. LCOH values in 2030 spatially vary by over 50% depending on location. The geographically distributed LCOH results are summarised in a multivariate production function which is a simple and rapid tool for generating preliminary LCOH estimates based on simple site input variables.

AB - This paper describes the development of a general-purpose geospatial model for assessing the economic viability of hydrogen production from offshore wind power. A key feature of the model is that it uses the offshore project's location characteristics (distance to port, water depth, distance to gas grid injection point). Learning rates are used to predict the cost of the wind farm's components and electrolyser stack replacement. The notional wind farm used in the paper has a capacity of 510 MW. The model is implemented in a geographic information system which is used to create maps of levelised cost of hydrogen from offshore wind in Irish waters. LCOH values in 2030 spatially vary by over 50% depending on location. The geographically distributed LCOH results are summarised in a multivariate production function which is a simple and rapid tool for generating preliminary LCOH estimates based on simple site input variables.

KW - Geographic information system

KW - Green hydrogen

KW - Hydrogen production in Ireland

KW - LCOH

KW - Offshore hydrogen production

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VL - 48

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JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

IS - 40

ER -

A geospatial method for estimating the levelised cost of hydrogen production from offshore wind

Abstract

Keywords

UN SDGs

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Investigators at University College Cork Report Findings in Wind Farms (A Geospatial Method for Estimating the Levelised Cost of Hydrogen Production From Offshore Wind)

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A geospatial method for estimating the levelised cost of hydrogen production from offshore wind

Abstract

Keywords

UN SDGs

Access to Document

Other files and links

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Investigators at University College Cork Report Findings in Wind Farms (A Geospatial Method for Estimating the Levelised Cost of Hydrogen Production From Offshore Wind)

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