乌兹别克斯坦的热流:地质和解释

V. Zui, D. N. Andreyev, Khikmatilla Kh. Rakhmatullayev
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引用次数: 0

摘要

乌兹别克斯坦以及整个中亚的热流密度的首次测定是在20世纪60年代中期进行的。在随后的几年里,许多研究人员主要是为了寻找和勘探石油和天然气矿床,研究了该地区的地热场。迄今为止积累的数据表明,乌兹别克斯坦和中亚邻近地区的热场具有显著的非均质性。对克孜勒库姆和卡拉库姆沙漠地区的稀有井进行了研究。乌兹别克斯坦的热流变化范围很广,从20-30到大约100 mW/m2。它的高值是具有密集深断层网络的地壳的山间洼地和块体的特征。乌兹别克斯坦南部和东部地区以及毗邻天山和帕米尔山脉构造的邻近地区的热流显著增加,其特点是地震活动、构造和热活动频繁。编制了乌兹别克斯坦热流密度的最新地图,并单独编制了费尔干纳洼地的热流密度地图。它们反映了地热场的显著区域变异性。随着图拉尼亚板块相对平坦的区域向山地构造的过渡,热流分化的程度显著增加。这是整个造山带的典型特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heat flow of Uzbekistan: geology and interpretation
The first determinations of the heat flow density in Uzbekistan, as well as in Central Asia as a whole, were carried out in the middle 1960s. In subsequent years, many researchers, primarily in connection with the search and exploration of oil and natural gas deposits, studied the geothermal field of the region. The data accumulated to date show a significant heterogeneity of the thermal field in both Uzbekistan and the adjacent territory of Central Asia. Rare wells were studied in the desert areas of Kyzyl Kum and Kara Kum. The heat flow in Uzbekistan varies over a wide range from 20–30 to approximately 100 mW/m2. Its high values are characteristic of intermountain depressions and blocks of the earth’s crust with a dense network of deep faults. The heat flow increases significantly in the southern and eastern parts of Uzbekistan, as well as in the neighbouring territories adjacent to the mountain structures of the Tien Shan and Pamir, characterized by high seismicity, tectonic and thermal activation. An updated map of the heat flow density of Uzbekistan was compiled and, separately for the Fergana Depression. They reflect a significant regional variability of the geothermal field. With the transition from the relatively flat territory of the Turanian Plate to mountain structures, the degree of differentiation by the heat flow increases significantly. This is typical of the entire orogenic Alpine-Himalayan Belt.
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