Energy capacity of the geothermal resource and its integration in the electrical energy demand of the island of Tenerife (Spain)

F. Montesdeoca-Martínez, S. Velázquez-Medina
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引用次数: 1

Abstract

One of the main strategies to maximize renewable energy penetration in electrical systems is to optimize their dispatchable capacity. One of the benefits of geothermal energy, as a renewable energy source, is its high dispatchability. The isolated electrical energy system of Tenerife (one of the 8 islands of the Canary Archipelago) is highly dependent on fossil fuels. The advanced state of maturity of the geothermal exploration of Tenerife positions the island with a high degree of probability as one of the few regions in Spain with high-enthalpy geothermal resources. This paper reports on a study undertaken of the island’s geothermal potential which involved calculation of the heat stored in geothermal reservoirs and the identification of zones of interest for exploitation of this resource and its energy capacity. Among the results obtained, 3 areas of interest were identified for the exploitation of geothermal energy with a total installable electrical power of 117.8 MW, which would increase the renewable contribution to the island’s daily demand by over 20% as well as contribute to maximizing the flexibility and stability of the electrical energy supply in a scenario of high renewable energy penetration.
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地热资源的能源容量及其在特内里费岛(西班牙)电力需求中的整合
优化电力系统的可调度容量是实现可再生能源在电力系统中渗透率最大化的主要策略之一。地热能作为一种可再生能源,其优点之一是具有较高的可调度性。特内里费岛(加那利群岛8个岛屿之一)孤立的电力系统高度依赖化石燃料。特内里费岛地热勘探的先进成熟状态使该岛成为西班牙少数几个拥有高焓地热资源的地区之一。本文报告了对该岛地热潜力进行的一项研究,其中包括计算地热储层中储存的热量和确定开发这一资源及其能源容量的兴趣区。在获得的结果中,确定了3个感兴趣的地热能开发领域,总可安装电力功率为117.8兆瓦,这将使可再生能源对岛上日常需求的贡献增加20%以上,并有助于在可再生能源高渗透的情况下最大限度地提高电力供应的灵活性和稳定性。
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来源期刊
Renewable Energy and Power Quality Journal
Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology
CiteScore
0.70
自引率
0.00%
发文量
147
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