Perspectives for a sustainable implementation of super-green hydrogen production by photoelectrochemical technology in hard-to-abate sectors

Marta Rumayor, Javier Fernández-González, Antonio Domínguez-Ramos, Angel Irabien
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Abstract

The energy transition's success hinges on the effectiveness to curbing carbon emissions from hard-to-abate sectors. Hydrogen (H2) has been proposed as the candidate vector that could be used to replace fossils in such energy-intensive industries. Despite green H2 via solar-powered water electrolysis being a reality today, the overall defossilization of the hard-to-abate sectors by electrolytic H2 would be unfeasible as it relies on the availability of renewable electricity. In this sense, the unbiassed photoelectrochemical water splitting (PEC), as inspired by natural photosynthesis, may be a promising alternative expected in the long term. PEC could be partly or even completely decoupled from renewable electricity and then, could produce H2 autonomously. However, some remaining challenges still limit PEC water splitting to operate sustainably. These limitations need to be evaluated before the scaling up and implementation. A prospective life cycle assessment (LCA) has been used to elucidate a positive performance scenario in which the so-called super-green H2, or photo-H2, could be a sustainable alternative to electro-H2. The study has defined future scenarios by conducting a set of sensitivity assessments, determining the figures of operating parameters such as i) the energy to produce the cell; ii) solar-to-hydrogen efficiency (STH); and iii) lifetime. These parameters have been evaluated based on two impact categories: i) Global Warming Potential (GWP); and ii) fossil Abiotic Depletion Potentials (f-ADP). The mature water electrolysis was used for benchmarking in order to elucidate the target performance in which PEC technology could be positively implemented at large-scale. Efficiencies over 10% (STH) and 7 years of lifetime are compulsory in the coming developments to achieve a positive scaling-up.

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通过光电化学技术在难以削减的行业可持续实施超绿色氢气生产的前景
能源转型的成功取决于难以减少的行业在遏制碳排放方面的有效性。氢(H2)已被提议作为候选载体,可用于替代此类能源密集型行业中的化石。尽管通过太阳能水电解实现绿色H2在今天已经成为现实,但通过电解H2对难以减少的行业进行整体去矿化是不可行的,因为它依赖于可再生电力的可用性。从这个意义上说,受自然光合作用的启发,无偏光电化学水分解(PEC)可能是一种有前景的长期替代方案。PEC可以部分甚至完全与可再生电力脱钩,然后可以自主生产H2。然而,一些剩余的挑战仍然限制了PEC水分解的可持续运行。在扩大规模和实施之前,需要对这些限制进行评估。前瞻性生命周期评估(LCA)已被用于阐明一种积极的性能场景,即所谓的超绿色H2或光-H2可能是电-H2的可持续替代品。该研究通过进行一系列敏感性评估,确定了未来的情景,如i)生产电池的能量;ii)太阳能-氢气效率(STH);以及iii)寿命。这些参数是根据两类影响进行评估的:一全球变暖潜力;和ii)化石非生物耗竭潜力(f-ADP)。成熟的水电解被用于基准测试,以阐明PEC技术可以大规模积极实施的目标性能。在未来的发展中,效率必须超过10%(STH)和7年的使用寿命,以实现积极的扩展。
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