Comparative techno-economic analysis of different PV-assisted direct solar hydrogen generation systems

Astha Sharma, Thomas Longden, Kylie Catchpole, Fiona J. Beck

Research output: Contribution to journalArticlepeer-review

12 Citations (Scopus)

Abstract

Photovoltaic (PV) assisted direct solar hydrogen generation (DSHG) is an alternative pathway for large-scale renewable hydrogen generation, where solar energy is directly used to drive water splitting in a compact integrated system. Despite promising improvements in efficiency, the robust technoeconomic analysis required to quantitatively understand the opportunities and challenges of using DSHG to reduce the cost of renewable hydrogen production has been lacking. Herein, we compare three different DSHG module configurations with varying levels of integration between PV and electrocatalysts, covering the variety of different systems that have been proposed in the literature. Photoelectrochemical (PEC) configurations have the highest level of integration, with catalyst directly coated on the PV components to form photoelectrodes. In contrast, PV-electrochemical configurations (PV-EC) consist of series connected photovoltaic and electrochemical (EC) components connected via wires. It is also possible to decouple PV-EC systems, such that the PV and EC components are connected through a dc-dc convertor to optimize power management. Our analysis demonstrates that the cost of hydrogen produced by these systems depends on the configuration, and that the decoupled PV-EC systems produce the lowest cost hydrogen. Regression analysis identifies membrane cost and lifetime, gas handling and compression, and O&M as the key cost components impacting the LCOH. Comparison of DSHG and PV-Electrolysers (PV-E) highlights the conditions under which DSHG could out-compete PV-E, emphasizing it is a competitive technology within the uncertainty of the analysis.

Original languageEnglish
Pages (from-to)4486-4501
Number of pages16
JournalEnergy and Environmental Science
Volume16
Issue number10
DOIs
Publication statusPublished - 15 Aug 2023
Externally publishedYes

Bibliographical note

Publisher Copyright:
© 2023 The Royal Society of Chemistry.

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