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Harnessing enhanced solar efficiency for green hydrogen production: A comparative analysis of PV and PV-T systems

Dana Alghool, Chiheb Bouden, Mohamed Haouari, Paolo Trucco

2024International Journal of Hydrogen Energy24 citationsDOIOpen Access PDF

Abstract

Green hydrogen, a critical element in the shift towards sustainable energy, is traditionally produced by electrolysis powered by solar photovoltaic (PV) systems. This research explores the potential of underexploited photovoltaic thermal (PV-T) systems for efficient green hydrogen generation. This paper compares this advanced technology performance and economic viability against conventional PV setups. This paper uses TRNSYS simulation software to analyze two distinct solar-based hydrogen production configurations – PV and PV-T – across diverse climatic conditions in Doha, Tunis, and Stuttgart. The paper’s findings indicate that PV-T significantly outperforms PV in hydrogen generation across diverse climates (Doha, Tunis, Stuttgart). For instance, in Doha, PV-T systems increase hydrogen output by 78%, in Tunis by 59% and in Stuttgart by 25%. An economic assessment reveals PV panels as the most cost-effective option, with hydrogen production costs ranging from $4.92/kg to $9.66/kg across the studied locations. For PV-T collectors, the hydrogen cost range from $6.66/kg to $16.80/kg across the studied locations. Nevertheless, this research highlights the potential of PV-T technology to enhance the efficiency and economic viability of green hydrogen production. These findings offer valuable insights for policymakers, investors, and researchers pursuing more efficient solutions for sustainable energy. • Simulation is used to compare the performance of PV-T systems against PV systems. • The performance of the two systems is investigated in three geographical locations. • The PV-T systems substantially increase hydrogen output against PV systems. • The PV systems are the most cost-effective for all locations.

Topics & Concepts

Photovoltaic systemHydrogen productionEnvironmental scienceProduction (economics)Renewable energyEngineering physicsHydrogenProcess engineeringMaterials scienceChemistryPhysicsEngineeringElectrical engineeringEconomicsOrganic chemistryMacroeconomicsHybrid Renewable Energy SystemsSolar Thermal and Photovoltaic SystemsEnergy and Environment Impacts
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