期刊
9TH INTERNATIONAL RENEWABLE ENERGY STORAGE CONFERENCE, IRES 2015
卷 73, 期 -, 页码 136-144出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.egypro.2015.07.661
关键词
Large-scale hydrogen underground storage; Power-to-Gas
Hydrogen as an energy carrier is understood as a system capable of storing energy for a later use in a controlled manner. Surplus electricity from renewable energy serves for green hydrogen generation via electrolysis. Once produced, the hydrogen is stored for later consumption. This paper describes the Spanish Case Study of the HyUnder project which aims to evaluate the potential of underground hydrogen storage for large-scale energy storage along Europe, analysing besides the Spanish Case, France, Germany, the Netherlands, Romania, and the United Kingdom. This case study has considered for the assessment, the competitiveness of hydrogen storage against other large scale energy storage concepts, the geological potential for hydrogen storage in the region, how to embed the hydrogen energy storage in the energy market and the possible business cases in four different applications: transport, Power to Gas, re-electrification and industry, taking into account all the economic aspects such us the electrolyser OPEX and CAPEX or the cavern, electricity and water costs. It is shown that the Spanish geology can provide four technical options for hydrogen underground storage. Results have shown the interest of the technology in short - medium term especially linked to certain conditions of high intermittent renewable energy penetration in the Spanish power grid that result in surplus or residual electricity. Hydrogen storage is interesting because it can integrate renewable energy systems in other sectors which do not have overcapacity and a high use of fossil fuels as the natural gas sector and the transport sector. Moreover, all the economic issues have been analysed for two different horizons, 2025 and 2050; concluding that the average price of electricity is the main cost. From the financial results, transport application represents a business case which, although in order has enough values of hydrogen demand to be stored, combination of different applications must be needed in order to make sense to the development of the cavern. (C) 2015 The Authors. Published by Elsevier Ltd.
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