Blending Hydrogen With Natural Gas/Biomethane and Transportation in Existing Gas Networks

IF 0.5 Q4 PHYSICS, APPLIED Latvian Journal of Physics and Technical Sciences Pub Date : 2023-09-29 DOI:10.2478/lpts-2023-0030
L. Zemite, L. Jansons, N. Zeltins, S. Lappuke, I. Bode
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引用次数: 1

Abstract

Abstract The existing European Union (EU) natural gas network provides large capacity to integrate renewable (RGs) and low-carbon gases. Today, hydrogen contributes only a few percent to Europe’s energy consumption and is almost exclusively produced from fossil fuels and used in the industry. Nevertheless, hydrogen has a significant role to play in emission reduction in hard-to-decarbonize sectors, in particular, as a fuel in transport applications and as a fuel or feedstock in certain industrial processes (steel, refining or chemical industries, the production of “green fertilizers”). Carbon dioxide (CO 2 ) in reaction with hydrogen can also be further processed into synthetic fuels, such as synthetic kerosene in aviation. In addition, hydrogen brings other environmental co-benefits when used as fuel, such as the lack of air pollutant emissions. However, in transitional phase from fossil to RG, namely, renewable or green hydrogen, natural gas/biomethane and hydrogen blends, are needed to gradually replace natural in existing gas transmission and distribution networks. The gas networks are believed to be able to use natural gas/biomethane and hydrogen blends with 5–20 % of hydrogen by volume. Most systems and applications are able to handle it without a need for major infrastructure upgrades or end-use appliance retrofits or replacements. The promotion of hydrogen network such as European Hydrogen backbone (EHB) is gaining momentum in Europe. To decarbonize the natural gas grids, the threshold of hydrogen in the existing grid systems must be increased, which can be done by means of wider natural gas/biomethane and hydrogen blending and simultaneous transportation in currently operational gas networks.
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将氢与天然气/生物甲烷混合以及在现有天然气网络中的运输
现有的欧盟天然气网络为可再生能源(RGs)和低碳气体的整合提供了很大的容量。如今,氢仅占欧洲能源消耗的百分之几,几乎完全由化石燃料生产并用于工业。然而,氢在难以脱碳的部门的减少排放方面可发挥重要作用,特别是作为运输应用的燃料和作为某些工业过程(钢铁、炼油或化学工业、“绿色肥料”的生产)的燃料或原料。与氢反应的二氧化碳(CO 2)还可以进一步加工成合成燃料,例如航空中的合成煤油。此外,氢作为燃料使用时还会带来其他环境效益,例如减少空气污染物的排放。然而,在从化石燃料到天然气的过渡阶段,即可再生或绿色氢气、天然气/生物甲烷和氢气混合物,需要逐步取代现有天然气输配网络中的天然气。天然气网络被认为能够使用天然气/生物甲烷和氢气的混合物,氢气的体积为5 - 20%。大多数系统和应用程序都能够处理它,而不需要主要的基础设施升级或终端设备改造或更换。欧洲氢干线(EHB)等氢网络在欧洲的推广势头正猛。为了使天然气电网脱碳,必须提高现有电网系统中氢气的门槛,这可以通过在当前运行的天然气网络中更广泛的天然气/生物甲烷和氢气混合以及同时运输来实现。
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来源期刊
CiteScore
1.50
自引率
16.70%
发文量
41
审稿时长
5 weeks
期刊介绍: Latvian Journal of Physics and Technical Sciences (Latvijas Fizikas un Tehnisko Zinātņu Žurnāls) publishes experimental and theoretical papers containing results not published previously and review articles. Its scope includes Energy and Power, Energy Engineering, Energy Policy and Economics, Physical Sciences, Physics and Applied Physics in Engineering, Astronomy and Spectroscopy.
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