EXPLORATION TARGET AREA OF HOT DRY ROCK RESOURCES IN LOWER LIAOHE BASIN

LIU Zhen-wei; ZHANG Xiao-hui; YU Xiao-lei; CAI Xin-ming; YANG Hui; SUN Lei; MU Jun-hao

doi:10.13686/j.cnki.dzyzy.2024.03.013

2024 Vol. 33, No. 3

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Article navigation > Geology and Resources > 2024 > 33(3): 372-378

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LIU Zhen-wei, ZHANG Xiao-hui, YU Xiao-lei, CAI Xin-ming, YANG Hui, SUN Lei, MU Jun-hao. EXPLORATION TARGET AREA OF HOT DRY ROCK RESOURCES IN LOWER LIAOHE BASIN[J]. Geology and Resources, 2024, 33(3): 372-378. doi: 10.13686/j.cnki.dzyzy.2024.03.013

Citation:

LIU Zhen-wei, ZHANG Xiao-hui, YU Xiao-lei, CAI Xin-ming, YANG Hui, SUN Lei, MU Jun-hao. EXPLORATION TARGET AREA OF HOT DRY ROCK RESOURCES IN LOWER LIAOHE BASIN[J]. Geology and Resources, 2024, 33(3): 372-378. doi: 10.13686/j.cnki.dzyzy.2024.03.013

EXPLORATION TARGET AREA OF HOT DRY ROCK RESOURCES IN LOWER LIAOHE BASIN

1.
Liaoning Mineral Exploration Institute Co., Ltd., Shenyang 110031, China
2.
Liaoning No. 10 Geological Brigade Co., Ltd., Fushun 113003, Liaoning Province, China

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Corresponding author: YU Xiao-lei, 353503770@qq.com

Received Date: 03 July 2023

Revised Date: 04 August 2023

Publish Date: 25 June 2024

Abstract

Abstract

There is high terrestrial heat flow value and large geothermal gradient in Lower Liaohe Basin due to its unique tectonic location, with huge geothermal resources potential. Based on the study of geothermal field, heat flux and buried hill distribution in Lower Liaohe Basin, it is considered that the Gaosheng-Shuguang-Huanxiling buried hill belt located in the slope zone of western sag of Lower Liaohe Basin is a favorable target for hot dry rocks prospecting, and the genetic model of hot dry rock resources in the area is analyzed.
- hot dry rock /
- terrestrial heat flow /
- geothermal gradient /
- deep ground temperature /
- buried hill /
- Lower Liaohe Basin

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References

[1]	国家能源局. NB/T 10097-2018地热能术语[S]. 北京: 中国石化出版社, 2018. Google Scholar National Energy Administration. NB/T 10097-2018 Terminology of geothermal energy[S]. Beijing: China Petrochemical Press, 2018. Google Scholar
[2]	汪集旸, 胡圣标, 庞忠和, 等. 中国大陆干热岩地热资源潜力评估[J]. 科技导报, 2012, 30(32): 25-31. Google Scholar Wang J Y, Hu S B, Pang Z H, et al. Estimate of geothermal resources potential for hot dry rock in the continental area of China[J]. Science & Technology Review, 2012, 30(32): 25-31. Google Scholar
[3]	甘浩男, 王贵玲, 蔺文静, 等. 中国干热岩资源主要赋存类型与成因模式[J]. 科技导报, 2015, 33(19): 22-27. Google Scholar Gan H N, Wang G L, Lin W J, et al. Research on the occurrence types and genetic models of hot dry rock resources in China[J]. Science & Technology Review, 2015, 33(19): 22-27. Google Scholar
[4]	张保建, 李燕燕, 高俊, 等. 河北省马头营干热岩的成因机制及其示范意义[J]. 地质学报, 2020, 94(7): 2036-2051. Google Scholar Zhang B Y, Li Y Y, Gao J, et al. Genesis and indicative significance of hot dry rock in Matouying, Hebei Province[J]. Acta Geologica Sinica, 2020, 94(7): 2036-2051. Google Scholar
[5]	谭现锋, 刘肖, 王贵玲, 等. 利津干热岩型地热资源调查评价关键技术研究[J]. 地质学报, 2020, 94(7): 2166-2176. Google Scholar Tan X F, Liu X, Wang G L, et al. Research on the key technology for the investigation and evaluation of the hot dry rock geothermal resources in Lijin[J]. Acta Geologica Sinica, 2020, 94(7): 2166-2176. Google Scholar
[6]	辽河油田石油地质志编辑委员会. 中国石油地质志(三)-辽河油田[M]. 北京: 石油工业出版社, 1993. Google Scholar Editorial Committee of Petroleum Geology of Liaohe Oil Field. Liaohe oil field, Petroleum Geology of China (Ⅲ)[M]. Beijing: Petroleum Industry Press, 1993. (in Chinese) Google Scholar
[7]	汪集旸, 汪缉安, 王永玲, 等. 下辽河盆地大地热流[J]. 地质科学, 1986, 21(1): 16-29. Google Scholar Wang J Y, Wang J A, Wang Y L, et al. Terrestrial heat flow in Lower Liaohe Basin, North China[J]. Chinese Journal of Geology, 1986, 21(1): 16-29. Google Scholar
[8]	王永新, 胡圣标, 汪集旸, 等. 辽河盆地东部凹陷大地热流[J]. 中国科学院研究生院学报, 2000, 17(2): 62-67. Google Scholar Wang Y X, Hu S B, Wang J Y, et al. Heat flow in the eastern subdepression of Liaohe Basin[J]. Journal of Graduate School, Academia Sinica, 2000, 17(2): 62-67. Google Scholar
[9]	邱楠生. 中国西北部盆地岩石热导率和生热率特征[J]. 地质科学, 2002, 37(2): 196-206. Google Scholar Qiu N S. Characters of thermal conductivity and radiogenic heat production rate in basins of Northwest China[J]. Chinese Journal of Geology, 2002, 37(2): 196-206. Google Scholar
[10]	赵国瑞. 辽河盆地西部凹陷地热资源潜力研究[D]. 大庆: 东北石油大学, 2011. Google Scholar Zhao G R. Geothermal resources potential research on western sag of Liaohe Basin[D]. Daqing: Northeast Petroleum University, 2011. Google Scholar
[11]	王良书, 李成, 施央申, 等. 下扬子区地温场和大地热流密度分布[J]. 地球物理学报, 1995, 38(4): 469-476. Google Scholar Wang L S, Li C, Shi Y S, et al. Distributions of geotemperature and terrestrial heat flow density in lower Yangtze area[J]. Chinese Journal of Geophysics, 1995, 38(4): 469-476. Google Scholar
[12]	胡圣标, 何丽娟, 汪集旸. 中国大陆地区大地热流数据汇编(第三版)[J]. 地球物理学报, 2001, 44(5): 611-626. Google Scholar Hu S B, He L J, Wang J Y. Compilation of heat flow data in the China continental area (3rd edition)[J]. Chinese Journal of Geophysics, 2001, 44(5): 611-626. Google Scholar
[13]	姜光政, 高堋, 饶松, 等. 中国大陆地区大地热流数据汇编(第四版)[J]. 地球物理学报, 2016, 59(8): 2892-2910. Google Scholar Jiang G Z, Gao P, Rao S, et al. Compilation of heat flow data in the continental area of China (4th edition)[J]. Chinese Journal of Geophysics, 2016, 59(8): 2892-2910. Google Scholar
[14]	汪集旸, 黄少鹏. 中国大陆地区大地热流数据汇编(第二版)[J]. 地震地质, 1990, 12(4): 351-363. Google Scholar Wang J Y, Huang S P. Compilation of heat flow data in the China continental area (2nd edition)[J]. Seismology and Geology, 1990, 12(4): 351-363. Google Scholar
[15]	汪集旸, 黄少鹏. 中国大陆地区大地热流数据汇编[J]. 地质科学, 1988, 23(2): 196-204. Google Scholar Wang K Y, Huang S P. Compilation of heat flow data for continental area of China[J]. Chinese Journal of Geology, 1988, 23(2): 196-204. Google Scholar
[16]	张英, 冯建赟, 罗军, 等. 渤海湾盆地中南部干热岩选区方向[J]. 地学前缘, 2020, 27(1): 35-47. Google Scholar Zhang Y, Feng J Y, Luo J, et al. Screening of hot dry rock in the south-central part of the Bohai Bay Basin[J]. Earth Science Frontiers, 2020, 27(1): 35-47. Google Scholar
[17]	单俊峰. 辽河坳陷变质岩潜山内幕成藏条件研究[D]. 北京: 中国地质大学, 2007. Google Scholar Shan J F. The research of inner structure hydrocarbon accumulation conditions of metamorphic rock buried hill in Liaohe depression[D]. Beijing: China University of Geosciences, 2007. Google Scholar
[18]	殷秀兰, 武红岭, 马寅生, 等. 辽河盆地东部凹陷古地温演化研究[J]. 地质力学学报, 2003, 9(2): 106-112. Google Scholar Yin X L, Wu H L, Ma Y S, et al. Research on the evolution of the paleotemperature of the eastern sag in Liaohe Basin[J]. Journal of Geomechanics, 2003, 9(2): 106-112. Google Scholar
[19]	王永新, 汪集旸, 胡圣标. 辽河盆地东部凹陷热历史及构造-热演化特征[J]. 地质科学, 2003, 38(2): 214-220. Google Scholar Wang Y X, Wang J Y, Hu S B. Thermal history and tectono-thermal evolution of eastern depression, the Liaohe Basin[J]. Chinese Journal of Geology, 2003, 38(2): 214-220. Google Scholar
[20]	于小磊, 张晓辉, 刘振伟, 等. 辽宁省干热岩资源赋存条件分析及靶区初选[J]. 地质与资源, 2023, 32(5): 608-615. doi: 10.13686/j.cnki.dzyzy.2023.05.011 CrossRef Google Scholar Yu X L, Zhang X H, Liu Z W, et al. Hot dry rocks in Liaoning Province: Occurrence conditions and primary selection of target areas. Geology and Resources, 2023, 32(5): 608-615. doi: 10.13686/j.cnki.dzyzy.2023.05.011 CrossRef Google Scholar
[21]	王贵玲, 陆川. 碳中和目标驱动下干热岩和增强型地热系统增产技术发展[J]. 地质与资源, 2023, 32(1): 85-95, 126. doi: 10.13686/j.cnki.dzyzy.2023.01.011 CrossRef Google Scholar Wang G L, Lu C. Stimulation technology development of hot dry rock and enhanced geothermal system driven by carbon neutrality target[J]. Geology and Resources, 2023, 32(1): 85-95, 126. doi: 10.13686/j.cnki.dzyzy.2023.01.011 CrossRef Google Scholar