综合开发贝里凯地热区的卤水

IF 0.9 Q4 ENERGY & FUELS
A. B. Alkhasov, D. A. Alkhasova
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引用次数: 0

摘要

事实证明,对 Berikei 地热区的热液卤水进行复杂的加工可以取得很好的效果。该矿床资源的开发可分两个阶段进行。在第一阶段,建议在自流卤水的基础上组织生产化合物。在开发出从盐水中提取化学成分的技术后,建议进入第二阶段:实施利用热能的综合技术,随后从冷却的盐水中提取化学成分。这种技术可以利用地热资源的所有资源。地热卤水的热能在温室和地热蒸汽-燃气发电厂(GSGP)中回收,其中包括二元地热发电厂(GeoPP)和燃气轮机发电厂(GTPP)。在二元地热电站中,低沸点工作流体通过从地热盐水中去除热量而被加热到较高温度。通过 GTPP 废气的热量,将工作液进一步加热到蒸发温度,并使其蒸发和过热。地热发电站的建设将为整个建筑群提供不间断和自主的电力供应。开发 Berikei 矿床的所有热液资源将使每年获得 2000 吨碳酸锂成为可能,从而满足俄罗斯工业的大部分需求,并生产 58 万多吨食盐,从而解决该产品的进口替代问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comprehensive Development of Brines of the Berikei Geothermal Field

Comprehensive Development of Brines of the Berikei Geothermal Field

Comprehensive Development of Brines of the Berikei Geothermal Field

It has been shown that complex processing of hydrothermal brines from the Berikei geothermal field can be highly effective. The development of the deposit’s resources can be carried out in two stages. At the first stage, it is proposed to organize the production of chemical compounds based on self-flowing brines. After developing the technology for extracting chemical components from brine, it is recommended to move on to the second stage: implementing an integrated technology for utilizing thermal energy with the subsequent extraction of chemical components from the cooled brine. This technique allows one to use all the resources of the field. The thermal energy of the geothermal brine is recovered in a greenhouse and a geothermal steam-gas power plant (GSGP), which includes units of a binary geothermal power plant (GeoPP) and a gas turbine power plant (GTPP). In a binary GeoPP, the low-boiling working fluid is heated to a higher temperature by removing heat from the geothermal brine. Further heating of the working fluid to the evaporation temperature and its evaporation and overheating are carried out by the heat of the GTPP exhaust gases. The construction of a GSGP will allow for uninterrupted and autonomous supply of electricity to the entire complex. The development of all hydrothermal resources of the Berikei deposit will make it possible to annually obtain 2000 t of lithium carbonate and, thereby, provide a significant part of the needs of Russian industry as well as produce more than 580 000 t of table salt, which will solve the problem of import substitution of this product.

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来源期刊
CiteScore
1.30
自引率
20.00%
发文量
94
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