Issue 6, 2023

Optimal design of a coupled photovoltaic–electrolysis-battery system for hydrogen generation

Abstract

A computational algorithm to model an integrated photovoltaic–electrolysis-battery system is presented with the goal of identifying the system's optimal size, from a Pareto front analysis perspective, that maximizes the hydrogen production rate, minimizes the levelized cost of energy (LCE) and total system's cost, while targeting a net-zero grid energy operation. Over 2 million sizing combinations were evaluated, and 10 were chosen as the Pareto front for this optimization problem, with hydrogen production capacities between 36–122 Nm3 h−1 and LCE values close to 0.2 $ per kW h. The results demonstrated that optimizing the system's cost and hydrogen production rate implicitly ensures LCE is minimized. The identified Pareto front serves as a design guide, enabling the design of arbitrary plant capacities by multiplying a Pareto optimal point by a factor, while guaranteeing the new point still lies within the Pareto front. This computational platform to model integrated solar-hydrogen systems can be extended to more complex hybrid systems.

Graphical abstract: Optimal design of a coupled photovoltaic–electrolysis-battery system for hydrogen generation

Supplementary files

Article information

Article type
Paper
Submitted
09 11月 2022
Accepted
03 2月 2023
First published
15 2月 2023

Sustainable Energy Fuels, 2023,7, 1395-1414

Author version available

Optimal design of a coupled photovoltaic–electrolysis-battery system for hydrogen generation

A. Alobaid and R. A. Adomaitis, Sustainable Energy Fuels, 2023, 7, 1395 DOI: 10.1039/D2SE01555B

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