The application of fretting exploration technology in the exploration of middle and deep clean energy
DONG Yao1(), LI Guang-Hui1, GAO Peng-Ju2, REN Jing1, XIAO Juan1
1. Henan Aero Geophysical Survey and Remote Sensing Center, Zhengzhou 450053,China 2. The Institude of Exploration Techniques,CAGS,Langfang 065000,China
With the further advancement of the energy reform,the exploration,development and utilization of geothermal energy in the middle and deep clean energy are imminent.At present,the exploration,development and utilization focus on the middle and deep level, mainly in urban areas,which limits the use of conventional seismic,magnetotelluric and other geophysical prospecting methods, and new methods need to be introduced. In this article,through micro exploration technology in some urban areas to carry out the relevant experiments, comparison of previous high precision gravity,magnetotelluric sounding,geothermal hole data,verified the micro test result,interpretation of stratigraphic classification and tectonic position was consistent with known data,deserves further research and promotion,to realize micro exploration technology in deep geothermal energy in the fast exploration and development is of great significance.
董耀, 李光辉, 高鹏举, 任静, 肖娟. 微动勘查技术在地热勘探中的应用[J]. 物探与化探, 2020, 44(6): 1345-1351.
DONG Yao, LI Guang-Hui, GAO Peng-Ju, REN Jing, XIAO Juan. The application of fretting exploration technology in the exploration of middle and deep clean energy. Geophysical and Geochemical Exploration, 2020, 44(6): 1345-1351.
He J S, Liu J X. A study of teh tunnel advanced detection thchnology and its application[J]. Chinese Journal of Engineering Geophysics, 2004,1(4):293-298.
Deng Q D, Xu X W, Zhang X K, et al. Methods and techniques for surveying and prospecting active faults in urban areas[J]. Earth Science Frontiers, 2003,10(1):93-104.
Gao Y H, Huang S H, Liu D, et al. Microtremor detection technology and its new progress in engineering application[J]. Science Technology and Engineering, 2018,18(23):146-155.
Zhang G B, Wang X G, Luo X J. Analysis and protection research on formation conditions of geothermal water in sanmenxia basin[J]. Yellow River, 2011,33(7):81-82.
Zhang T Z, Lyu Z T, Wang W F. Analysis on characteristics of geothermal resources in bianxi new area, kaifeng city,henan Province[J]. Resources Guide:Earth Science and Technology Edition, 2013(11):65-68,71.
[11]
苏媛媛. 豫东下古生界地热资源潜力评价[J]. 山东煤炭科技, 2017(6):185-187.
[11]
Su Y Y. Potential evaluation of lower Paleozoic geothermal resources in eastern henan[J]. Shandong Coal Science and Technology, 2017(6):185-187.
Cheng Y, Qin X, Zhao X X, et al. Geophysical characteristics and prospecting model based on comprehensive informationin the molybdenum,lead,zinc and silver polymetallic ore concentration area of the East QinlingMountains[J]. Geology and Exploration, 2018,54(4):747-761.
Liu H Y, Huang J K, Sun Z Y, et al. Application of microtremor method to boulders detection in urban metro shield construction:case study of Fuzhou metro line No. 1[J]. Tunnel Construction, 2016,36(12):1500-1506.
Wang W L, Wu J P, Fang L H. Application of microseismic data to constraining inversion for velocity structure beneath stations in sedimentary area[J]. Acta Seismologica Sinica, 2011,33(1):28-38.
Okada H, Ling S Q. About a recent study on the surveying geologic structures by using the Microtremor Survey Method[R]. Report of Hokkaido University(in Japanese), 1994.
He Z Q, Ding Z F, Jia H, et al. To determine the veloeity structure of shallow crust with surface wave information in microtremors[J]. Chinese Journal of Geophysics, 2007,50(2):492-498.