低碳能源2。氢能:问题、成就、可能存在的风险(回顾)

B. Basok, Ye.T. Baseyev
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引用次数: 0

摘要

通过积极使用能源效率措施,广泛使用可再生能源,特别是氢,减少乌克兰经济碳容量的方法,以及向低碳能源过渡可能存在的问题和风险。这项工作的目的是在考虑到经济在这条道路上发展的优势、现有成就和障碍的情况下,从实现乌克兰脱碳能源的角度评估氢使用的贡献。为此目的,根据EROEI指标估计初级能源的能源效率,特别是可再生能源;根据单位能源温室气体排放量给出了基础能源环境友好性指标;本文介绍了国际能源机构关于全球能源效率投资量的数据。最近在氢气生产、运输和最终使用过程研究领域的主要科学和技术成果,由乌克兰国家科学院的一些研究所的团队获得。氢能问题是全国科学家密切关注的焦点。考虑使用乌克兰核电站生产氢气。特别关注乌克兰到2050年氢战略草案的材料,根据该草案,在实施的最后阶段,氢气产量将达到每年3300亿立方米。对可再生能源的形成和开发风险进行了评估,并考虑了该国经济发展的最佳方案。
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LOW CARBON ENERGY 2. Hydrogen energy: problems, achievements, possible risks (review)
Ways to reduce the carbon capacity of Ukraine's economy through the active use of energy efficiency measures in energy, extensive use of renewable energy sources, in particular hydrogen, with possible problems and risks of transition to low-carbon energy. The aim of the work is to assess the contribution of hydrogen use in the perspective of achieving decarbonized energy of Ukraine, taking into account the advantages, available achievements and obstacles to the movement of the economy on this path. To this end, estimates of energy efficiency of primary energy resources according to the EROEI indicator, in particular, renewable energy sources; indicators of environmental friendliness of basic energy resources according to specific (per unit of energy) greenhouse gas emissions are given; IEA data on the volume of global investments in energy efficiency are presented. The main scientific and technical results of recent times in the field of research on the processes of production, transportation and end use of hydrogen, obtained by teams from a number of institutes of the National Academy of Sciences of Ukraine. The problems of hydrogen energy are in the focus of close attention of scientists in the country. The use of Ukrainian nuclear power plants for hydrogen production is considered. Particular attention is paid to the materials of the draft Hydrogen Strategy of Ukraine until 2050, according to which the volume of hydrogen production in the final period of implementation will be up to 330 billion nm3 annually. The risks of formation and development of energy at RES are assessed, the optimal scenarios of the country's economic development are considered.
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