WASTE-TO-HYDROGEN: CHALLENGES AND OPPORTUNITIES IN THE UK SCENARIO

IF 1.2 Q4 ENGINEERING, ENVIRONMENTAL Detritus Pub Date : 2023-06-30 DOI:10.31025/2611-4135/2023.18274
M. Materazzi, Suviti Chari, Shazeb Bajwa, Alex Sebastiani
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引用次数: 1

Abstract

Hydrogen is widely recognised to play a key role to decarbonise various industries, as well as transportation, heating and power sectors, for it does not generate greenhouse gas emissions at the point of use. Understanding the technologies that can generate low carbon hydrogen is essential in planning the development of future gas networks and more sustainable manufacturing processes. One promising approach is hydrogen production by gasification of waste, referred to as biohydrogen. This paper summarises work undertaken to design a commercial Waste-to-Hydrogen (WtH2) plant, which includes an assessment of current development stage of technologies, the identification of an appropriate scale for the plants, and development of specifications for process design and output streams. The overall production levels of biohydrogen is observed to be limited by the availability of sustainable feedstocks; however, the results of negative CO2 emissions achieved via biohydrogen production shows that its overall potential to reduce GHG emissions is significantly better, as compared to other form or low carbon hydrogen. In particular, biohydrogen application is capable of generating negative emissions that are required to offset GHGs from other sectors in the future. In combination, low carbon hydrogen production can make a very important contribution to achieving net zero commitment in UK.
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废物转化氢:英国情景下的挑战与机遇
氢被广泛认为在各个行业以及交通、供暖和电力行业的脱碳中发挥着关键作用,因为它在使用时不会产生温室气体排放。了解能够产生低碳氢气的技术对于规划未来天然气网络和更可持续的制造工艺的发展至关重要。一种很有前途的方法是通过废物气化来生产氢气,称为生物氢气。本文总结了为设计商业废物制氢(WtH2)工厂而进行的工作,其中包括对当前技术开发阶段的评估,确定工厂的适当规模,以及制定工艺设计和输出流的规范。据观察,生物氢的总体生产水平受到可持续原料可用性的限制;然而,通过生物氢气生产实现负CO2排放的结果表明,与其他形式或低碳氢气相比,其减少GHG排放的总体潜力要高得多。特别是,生物氢应用能够产生负排放,这是未来抵消其他部门温室气体所需的。总之,低碳氢气生产可以为英国实现净零排放做出非常重要的贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Detritus
Detritus ENGINEERING, ENVIRONMENTAL-
CiteScore
3.30
自引率
23.50%
发文量
45
审稿时长
15 weeks
期刊最新文献
WASTE EGGSHELLS AS CATALYSTS: AN ENVIRONMENTALLY-FRIENDLY APPROACH Food waste collection versus food waste disposers: A case study of a Portuguese city Comparative life cycle assessment of different recycled concrete aggregates WASTE MANAGEMENT WITHIN EUROPEAN UNION: MUST THE DISCOURSE CHANGE? LIFE CYCLE ASSESSMENT OF SCENARIOS FOR END-OF-LIFE MANAGEMENT OF LITHIUM-ION BATTERIES FROM SMARTPHONES AND LAPTOPS
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