Fallen leaves to sustainable energy solution: review on hydrogen production

Kyu Kyu Tin, Wirach Taweepreda, Akanksha Singh, Naresh Kumar Wagri and Anil Kumar
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Abstract

Fallen leaves represent a significant feedstock for hydrogen production due to their high cellulose content, abundance, and minimal sulfur content. These characteristics make them suitable for various hydrogen production technologies, including biohydrogen and biomass-derived liquid reforming processes, contributing to sustainable energy production. This comprehensive literature review explores fallen leaves as a low-cost biomass feedstock for hydrogen production in the pursuit of zero-carbon and sustainable energy solutions. Steam methane reforming, while cost-effective and possessing high production capacity, results in substantial carbon emissions. In contrast, electrolysis, leveraging renewable resources, is attractive but requires significant energy input. Biomass gasification and thermochemical processes show promise for sustainable hydrogen production, though further technological advancements are necessary. Additionally, anaerobic fermentation by microorganisms can directly produce hydrogen from biomass (including fallen leaves), offering an energy-efficient method that utilizes organic waste. This review evaluates hydrogen production concerning energy efficiency, economics, and environmental impact. The findings contribute to the global transition from fossil fuels to renewable energy sources, aligning with climate commitments and the goal of carbon neutrality.

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从落叶到可持续能源解决方案:氢气生产回顾
落叶由于纤维素含量高、数量多且含硫量极低,是制氢的重要原料。这些特点使其适合各种制氢技术,包括生物氢和生物质衍生液体重整工艺,从而为可持续能源生产做出贡献。本综合文献综述探讨了落叶作为制氢的低成本生物质原料,以实现零碳和可持续能源解决方案。蒸汽甲烷转化虽然具有成本效益和高产能,但会导致大量碳排放。相比之下,利用可再生资源的电解法很有吸引力,但需要大量能源投入。生物质气化和热化学工艺显示了可持续制氢的前景,但还需要进一步的技术进步。此外,微生物厌氧发酵可直接从生物质(包括落叶)中制氢,提供了一种利用有机废物的节能方法。本综述对氢气生产的能效、经济性和环境影响进行了评估。研究结果有助于全球从化石燃料向可再生能源过渡,符合气候承诺和碳中和目标。
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Correction: Hydrothermal synthesis of ZnZrO x catalysts for CO2 hydrogenation to methanol: the effect of pH on structure and activity. Back cover Inside back cover Direct measurement of PFAS levels in surface water using an engineered biosensor. Statistical optimization of cell-hydrogel interactions for green microbiology - a tutorial review.
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