CYCLE DIAGRAM OF GEOTHERMAL ENERGY

IF 0.6 Q4 ENGINEERING, GEOLOGICAL

Bulletin of the Tomsk Polytechnic University-Geo Assets Engineering Pub Date : 2023-07-28 DOI:10.18799/24131830/2023/7/4130

S. Yankovsky, S. Lavrinenko, S. Tsibulskiy, Natalia S. Yankovskaya, D. L. Gamov

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引用次数: 0

Abstract

Link for citation: Yankovsky S.A., Lavrinenko S.V., Tsibulskiy S.A., Yankovskaya N.S., Gamov D.L. Cycle diagram of geothermal energy. Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering, 2023, vol. 334, no. 7, рр. 122-136. In Rus. The relevance of the research is caused by the need to develop alternative and environmentally friendly energy sources in conditions of global warming. The development of geothermal energy will make it possible to produce thermal and electric energy without emissions of CO2 into the environment and reduce the dependence of the energy sector on hydrocarbon raw materials. The main aim of this study is a comprehensive analysis of the features of geothermal power plants, including the existing technologies for converting geothermal energy to provide consumers of electric and thermal energy. Objects: diagrams of geothermal power plants operating in different geographical and climatic conditions, as well as their working fluids. Methods: analytical review of thematic publications using the materials of the databases of the RSCI, Scopus and Web of Science, a comparative analysis of the effectiveness of geothermal power plants for various indicators. Results. Currently, there are about 400 geothermal power plants in the world. The active development of geothermal energy is caused by environmental friendliness, low cost of energy produced, minimal operating costs, lack of dependence on atmospheric influences, and the absence of the need to burn fuel, etc. At the same time, most of the world's geothermal power plants use the energy of a geothermal source with a water temperature of 100–200 °C. Among the main thermodynamic cycles and thermal schemes implemented, it is possible to single out direct cycle geothermal power plants with one-stage and two-stage separation of a geothermal source, with direct supply of dry steam to the turbine, binary and combined versions. The analysis shows that direct cycle geothermal power plants have the lowest cost of installed electrical power due to the relative simplicity and high thermal efficiency, but require high parameters of a geothermal source. On the other hand, binary geothermal power plants have the highest unit cost, but can be implemented on geothermal sources with relatively low water parameters, which was the main reason for their greatest spread in the world. At the same time, the implementation of a binary geothermal power plant with a Organic Rankine сycle has a number of advantages compared to the thermodynamic cycles of Kalina, Stirling and Brighton, among which the main ones are relative ease of adaptation and application, as well as low maintenance costs.

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地热能循环示意图

引用链接:Yankovsky s.a.， Lavrinenko s.v.， Tsibulskiy s.a.， Yankovskaya n.s.， Gamov D.L.地热能循环图。托木斯克理工大学公报。岩土工程Аssets, 2023，第334卷，第2期。7,рр。122 - 136。俄文。这项研究的相关性是由于在全球变暖的条件下需要开发替代和环境友好的能源。地热能的开发将使生产热能和电能而不向环境排放二氧化碳成为可能，并减少能源部门对碳氢化合物原料的依赖。本研究的主要目的是全面分析地热发电厂的特点，包括现有的地热能转换技术，为消费者提供电能和热能。对象:在不同地理和气候条件下运行的地热发电厂的示意图，以及它们的工作流体。方法:利用RSCI、Scopus和Web of Science数据库的资料对专题出版物进行分析综述，对地热发电厂的各项指标的有效性进行比较分析。结果。目前，世界上大约有400座地热发电厂。地热能的积极发展是由于环境友好、能源生产成本低、运行成本低、不依赖大气影响以及不需要燃烧燃料等原因。与此同时，世界上大多数地热发电厂使用的是水温在100-200℃的地热资源的能量。在实施的主要热力循环和热力方案中，可以单独列出地热源一级和两级分离，直接向涡轮机供应干蒸汽的直接循环地热发电厂，二元和组合版本。分析表明，直接循环地热发电厂由于相对简单、热效率高，装机电力成本最低，但对地热源的参数要求较高。另一方面，二元地热发电厂的单位成本最高，但可以在水参数相对较低的地热资源上实施，这是其在世界范围内推广最多的主要原因。同时，与Kalina, Stirling和Brighton的热力循环相比，采用有机朗肯循环的二元地热发电厂具有许多优点，其中主要是相对容易适应和应用，并且维护成本低。

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来源期刊

Bulletin of the Tomsk Polytechnic University-Geo Assets Engineering ENGINEERING, GEOLOGICAL-

CiteScore

1.40

自引率

50.00%

发文量

210

审稿时长

5 weeks