Path, Application and Challenge of Power-to-X

被引:0
|
作者
Li Y. [1 ]
Wang D. [1 ]
Zhao F. [1 ]
Li F. [1 ]
机构
[1] State Key Laboratory of Power Grid Security and Energy Conservation, China Electric Power Research Institute Co., Ltd., Haidian District, Beijing
来源
Dianwang Jishu/Power System Technology | 2024年 / 48卷 / 05期
基金
中国国家自然科学基金;
关键词
green fuel; green hydrogen-to-X; power-to-hydrogen; Power-to-X; renewable energy;
D O I
10.13335/j.1000-3673.pst.2023.1234
中图分类号
学科分类号
摘要
Driven by the goal of carbon neutrality, the proportion of new energy capacity has rapidly increased. In contrast, the randomness and volatility of new energy bring considerable challenges to the safety and operation of the power system. Power-to-X can convert renewable energy into other kinds of green fuels and use chemical energy to realize the consumption, storage, and transportation of electric energy, providing new ideas for storage and utilization in power systems. It also strengthens the coupling of various forms of energy and reduces carbon emissions in different fields, which is of great significance to the realization of low-carbon transformation. This paper comprehensively analyzed the key technologies in the Power-to-X, including the electrolysis for hydrogen production, CO2 capture and the pathways of green hydrogen-to-X conversion. The development status of four typical Power-to-X pathways was analyzed and compared, including the power-to-methane, power-to-methanol, power-to-ether, and power-to-ammonia. In addition, this paper analyzed the main problems and challenges faced by Power-to-X from energy efficiency, carbon source and hydrogen production technology. Finally, this paper proposed corresponding measures and prospected the future development of Power-to-X. © 2024 Power System Technology Press. All rights reserved.
引用
收藏
页码:1809 / 1820
页数:11
相关论文
共 100 条
  • [1] CHAPMAN D S, DAVIS M G., Climate change:past,present,and future[J], Eos,Transactions American Geophysical Union, 91, 37, pp. 325-326, (2010)
  • [2] ROGELJ J,, DEN ELZEN M, HOHNE N, Paris AGREEMENT climate proposals need a boost to keep warming well below 2℃[J], Nature, 534, 7609, pp. 631-639, (2016)
  • [3] ALLEN M R, BABIKER M, CHEN Y, Summary for policymakers[M], Global Warming of 1.5℃.An IPCC Special Report on the Impacts of Global Warming of 1.5℃ Above Pre-Industrial Levels and Related Global Greenhouse Gas Emission Pathways,in the Context of Strengthening the Global Response to the Threat of Climate Change,Sustainable Development,and Efforts to Eradicate Poverty, (2018)
  • [4] POURBABA M, ZIRAKKAR S., Utilization of renewable energy to produce electrical energy (Hydrogen Energy)[J], Procedia Engineering, 21, pp. 1088-1095, (2011)
  • [5] TOMKINS P, MULLER T E., Evaluating the carbon inventory,carbon fluxes and carbon cycles for a long-term sustainable world[J], Green Chemistry, 21, 15, pp. 3994-4013, (2019)
  • [6] DUDLEY B., BP statistical review of world energy[R], (2019)
  • [7] KIBAARA S, MURAGE D K, MUSAU P, Economic,environmental,health and social impacts of utility Scale solar energy generation:a review[C], Proceedings of 2019 Sustainable Research and Innovation Conference, pp. 39-44, (2019)
  • [8] AYODELE T R,, OGUNJUYIGBE A S O., Mitigation of wind power intermittency : storage technology approach[J], Renewable and Sustainable Energy Reviews, 44, pp. 447-456, (2015)
  • [9] MUREDDU M,, CALDARELLI G,CHESSAA, Green power grids:how energy from renewable sources affects networks and markets[J], PLoS One, 10, 9, (2015)
  • [10] DUQUE A, CASTRONUOVO E D,, SANCHEZ I, Optimal operation of a pumped-storage hydro plant that compensates the imbalances of a wind power producer[J], Electric Power Systems Research, 81, 9, pp. 1767-1777, (2011)
12345678910