氢能的发展现状与前景

V. Bondarenko, I. Kovalevska, D. Malashkevych, V. Sushkova
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摘要

目的。分析了乌克兰和世界氢提取方法的问题和发展前景,综述了文献,研究了氢燃料的运输和使用方法。方法。为实现这一目标,本文在兼顾理论规定的前提下,采用了实证的科学研究方法。Findigs。利用各种技术(如从可再生能源的过剩电力中提取绿色氢、高温下炼焦煤的气化、电解)获得氢的扩展和系统化方法,这允许创建一个实验室装置,其起始材料是从矿井水中蒸馏出来的,通过电解获得氢。创意。包括基于乌克兰和世界氢能源的一般信息,对氢燃料使用的能源和环境方面进行分析和系统化。建立了各种制氢方法对环境影响的规律。虽然氢被认为是生态清洁的,但在未来有必要考虑这样一个问题,即在氢气的大量生产和使用过程中,由于人类活动而导致的全球温室效应的加强以及这种活动对保护地球臭氧层的影响。实际的含义。通过电解生产绿色氢,向氢能源过渡的方便性得到了证实。乌克兰在利用创新技术生产生态清洁的绿色氢方面具有很高的潜力。分子氢作为合成燃料的优点是能量密度高,氢气是天然气的2.6倍,石油的3.3倍,纤维素的8.3倍。自2007年以来,使用风能、太阳能和其他类型能源的热门问题导致替代能源的份额增加。根据能源部和国际合作伙伴的说法,到2020年,生产和使用“绿色氢”的潜力是脱碳的通用工具。欧盟委员会已经制定了一项支持氢的整体战略,将其置于欧盟绿色协议的核心。氢气是利用可再生能源产生的电力生产的,目前约占其总产量的1%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Current status and prospects of the development of hydrogen energy
Purpose. Analysis of problems and prospects for the development of methods of hydrogen extraction, review of literature and study of methods of its transportation and use of hydrogen fuel in Ukraine and the world. Methodology. To achieve the goal, the work uses an empirical method of scientific research, taking into account theoretical provisions. Findigs. Expanded and systematized methods of obtaining hydrogen using various technologies (such as extraction of green hydrogen from excess electricity from renewable sources, gasification of coking coal at high temperature, electrolysis), which allowed to create a laboratory installation, the starting material of which is distillate from mine water, for obtaining hydrogen by electrolysis. Originality. consists in the analysis and systematization of energy and environmental aspects of the use of hydrogen fuel based on general information about hydrogen energy in Ukraine and the world. The regularities of the impact of various methods of obtaining hydrogen on the environment have been established. Although hydrogen is considered ecologically clean, in the future it is necessary to consider such a problem as the strengthening of the global greenhouse effect as a result of anthropogenic activity during the mass production and use of hydrogen and the impact of this activity on the protection of the Earth's ozone layer. Practical implication. The expediency of the transition to hydrogen energy with the production of green hydrogen by electrolysis has been confirmed. Ukraine has a high potential in the field of production of ecologically clean green hydrogen using innovative technologies. The advantage of molecular hydrogen as a synthetic fuel is its high energy density, where hydrogen exceeds natural gas by 2.6 times, oil by 3.3 times, and cellulose by 8.3 times. The topical issue of the use of wind, solar and other types of energy has led to an increase in the share of alternative sources since 2007. By 2020 According to the Ministry of Energy and international partners, the potential of production and use of "green hydrogen" is a universal tool for decarbonization. The European Commission has developed a holistic strategy to support hydrogen, placing it at the heart of the EU Green Deal. Hydrogen is produced using electricity produced from renewable sources, which currently accounts for about 1% of its total production.
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