Development of the methodology of energy and environmental safety of Ukraine based on own geothermics

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS Geofizicheskiy Zhurnal-Geophysical Journal Pub Date : 2023-08-30 DOI:10.24028/gj.v45i4.286289

Y.P. Starodub, V.M. Karpenko, A.P. Havrys, D.A. Behen

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Abstract

The article presents an idea of the project that defines the development of a geothermal power plant methodology based on a single isolated well. It is planned to develop a technical and economic rationale and geological and geophysical aspects of the development of geothermal energy and to obtain data on deposits of geothermal water in the deep. Extraction of heat from hot rocks at the pits is to be carried out using a special energy carrier, construction of the operating column, and circulation mode. To create a model in the project, a well is needed with a depth of 4,702 m, temperature at the bottom of 130 °С, an unperforated casing string with a diameter of 245 mm to a depth of 4,500 m, and no formation fluids. The transfer and transformation of the energy carrier by the working body into electric and hydrogen energy is maintained by ORC (Organic Rankine Cycle). The development of the methodology includes two stages: The first stage of the project involves legal preparation at the local and state levels for the use of the land plot and technical means of the drilled well and obtaining licenses and permits for the implementation of the project. It is planned to develop a technical and economic feasibility study for the construction of a geothermal electric station that will generate electricity and hydrogen energy for consumers. The second stage of the project involves the technical preparation of the well for its use as part of a geothermal power station. Remediation of the well to a depth of 4,500 m is foreseen, as well as the implementation of industrial geophysical studies of the technical condition of the unperforated casing string; conducting preliminary geothermal studies on the stability and thermal productivity of hot rocks. The authors intend to use results in the oil-and-gas industry, which has deep wells that have completed their purpose for hydrocarbon extraction, as well as in the nuclear, metallurgical, chemical, and many other fields.

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基于乌克兰自身地热的能源和环境安全方法的发展

本文提出了一个项目的想法，该项目定义了基于单个隔离井的地热发电厂方法的发展。计划发展地热能源开发的技术和经济原理以及地质和地球物理方面的问题，并取得关于深海地热水沉积的数据。利用特殊的能量载体、操作塔的建造和循环方式，从坑内热岩中提取热量。为了在该项目中创建模型，需要一口深度为4702 m、底部温度为130°С、直径为245 mm、深度为4500 m且无地层流体的无孔套管柱。工作体的能量载体向电能和氢能的传递和转化由ORC (Organic Rankine Cycle)维持。该方法的发展包括两个阶段:项目的第一阶段涉及地方和州一级的法律准备，以使用土地和钻探井的技术手段，并获得实施项目的许可证和许可证。计划对建设为消费者提供电力和氢能源的地热发电站进行技术和经济可行性研究。该项目的第二阶段涉及井的技术准备，以便将其用作地热发电站的一部分。预计将对深达4500米的井进行修复，并对未射孔套管柱的技术状况进行工业地球物理研究;对热岩的稳定性和热生产力进行了初步的地热研究。作者打算将研究结果应用于石油和天然气行业，这些行业的深井已经完成了碳氢化合物开采的目的，同时也应用于核能、冶金、化工和许多其他领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-

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