��ժҪ��Ϣ

[an error occurred while processing this directive]

�� 2017, 36(3) 964-969 DOI: 10.3969/j.issn.1004-5589.2017.03.030 ISSN: 1004-5589 CN: 22-1111/P

��Ŀ¼ | ��Ŀ¼ | �� | �߼�� [��ӡ��ҳ] [�ر�]

��

	��չ��

	��Ϣ
	Supporting info
	PDF(672KB)
	[HTMLȫ��]
	�ο��[PDF]
	�ο��
	��뷴��
	�ѱ��Ƽ��
	��ҵ��
	��ù��
	��ñ��
	Email Alert
	��·��
	��Ϣ
	��Ĺؼ��
	��
	��ݵ��
	�ظ�ѹ��·
	�ܶ�̽��
	��ܶȵ編
	̽��״�
	��
	��ˮ
	��
	��
	¦��
	Ԭ��
	�뽨��
	�۷�
	PubMed
	Article by Yu Q
	Article by Xu C
	Article by Qi D
	Article by Lou J
	Article by Yuan L
	Article by Qi J
	Article by Shao F

��ܶȵ編��̽��״��ڵ��ܶ�̽��е��Ӧ��:�Թ��ݵ��Ϊ��

��ˮ, ��, ��, ¦��, Ԭ��, �뽨��, �۷�

�й��̹��ʼ��Ŷ��Ժ��޹�˾, �� 130021

ժҪ�� ڹ��ݵ��ظ�ѹ��·��У��ø��ܶȵ編��ܶ��̽�⣬Ȼ��̽��жϸ��쳣�ǳ��ܶ��Ӧ��ʯ��ұ��ĸ��Ӧ��ڸ��ܶȵ編̽��Ļ��ϣ��һ��ʹ��̽��״��쳣ģ��и��֤��״��г��˫��ߵķ��쳣��Ӷ��ж��쳣��Դ�ڳ��ܶ��ʯ��ұ��

�ؼ���� ݵ�� ظ�ѹ��· �ܶ�̽�� ܶȵ編 ̽��״�

Combined application of high density resistivity method and GPR in detecting underground karst caves: a case study of Liuzhou area in Guangxi, China

YU Qing-shui, XU Cong, QI Di, LOU Jun-qing, YUAN Li-jiang, QI Jian-guo, SHAO Feng

China Power Engineering Consulting Group Northeast Electric Power Design Institute Co., Ltd. Changchun 130021

Abstract: In the construction of UHV lines in Liuzhou, Guangxi, the authors used high density resistivity method to detect underground caves, however, it is difficult to determine whether the high resistivity anomaly is the response of the gas-filled cave or the high resistivity limestone itself. On the basis of high density resistivity method, ground penetrating radar was used to further verify the abnormal fuzzy area. The hyperbolic reflection anomaly in radar result indicated that the high resistivity anomaly is derived from gas-filled cave, rather than the limestone itself.

Keywords: Guangxi Liuzhou area UHV lines cave detection high density resistivity method ground penetrating radar

�ո�� 2017-03-01 �޻�� 2017-05-03 ��淢��

DOI: 10.3969/j.issn.1004-5589.2017.03.030

��Ŀ:

ͨѶ��: ��(1969),��,��ڼ��߹�,��Ҫ��̿��о��׮��.E-mail:qidi@nepdi.net

��߼��:

��Email: qidi@nepdi.net

�ο��ף�

[1] �˳��,��Т��.��ܶȵ編��ԭ��Ӧ��[J].��̽�󹤳�,2006(��1):278-279. DENG Chao-wen, ZHOU Xiao-yu. The principle and engineering application of high-density electrical method[J]. West-China Exploration Engineering, 2006(Suppl.1):278-279.
[2] ��,Ф��Ծ,��,��.��ܶȵ編�ڹ��ܿ�̽�е�Ӧ��[J].��̵��ѧ��,2013,10(3):389-393. JIANG Fu-peng, XIAO Hong-yue, LIU Lei, et al. Application of high-density electrical method to karst exploration[J]. Chinese Journal of Engineering Geophysics, 2013,10(3):389-393.
[3] κ��.��ܶ�Ѩ̽�⼼��η��о�:˶ʿѧλ��[D].��:��ݴ�ѧ,2010. WEI Bin. The research on the detection technology and treatment methods of karst caves:master's degree thesis[D]. Guiyang:Guizhou University, 2010.
[4] ��.��ܶȵ編�͵��״��ڶϲ㼰�ܶ�̽��е�Ӧ��:˶ʿѧλ��[D].��:��ݴ�ѧ,2008. A Fa-you. Application of high density resistivity method and ground penetrating radar to surveying fault and karst caverns:master's degree thesis[D]. Guiyang:Guizhou University, 2008.
[5] �࿭.�ۺ��̽��·��̽��Ӧ��о�:˶ʿѧλ��[D].�ɶ�:�ɶ��ѧ,2016. YU Kai. The research of application of the comprehensive physical methods to detect the railway roadbed in the karsts area:master's degree thesis[D]. Chengdu:Chengdu University of Technology, 2016.
[6] �±��.��·��ܶ�Ѩ̽��ۺ��̽��о�:˶ʿѧλ��[D].��ɳ:��ϴ�ѧ,2009. CHEN Bin-wen. Study on comprehensive geophysical exploration methods of karst cave exploration for the highway:master's degree thesis[D]. Changsha:Central South University, 2009.
[7] ��,��ڱ,Τ��,��.��н�ʯ̿�ͳ��༰�ϡ��ʯ̿ͳ��[J].��,1989,2(2):31-46. KUANG Guo-dun, WU Yi, WEI Ren-yan, et al. The carboniferous sedimentary facies and the lower-middle carboniferous boundary at the outskirt of Liuzhou city[J]. Geology of Guangxi, 1989,2(2):31-46.
[8] ��ƽ��,��.��ܷ��ۺ��̽��Ӧ��[J].��̿��,2010(��1):598-602. HE Ping-yi, DING Yong. Application of synthetic geophysical methods in karst area[J]. Geotechnical Investigation & Surveying, 2010(Suppl.1):598-602.
[9] �ܳ��,��ʤ��,��¼��,��.��ʯ��Cd��ָ̬ʾ��弰��:�Թ��ë��Ϊ��[J].��ִ�ѧѧ��:��ѧ��,2016,46(2):552-562. ZHOU Chang-song, ZOU Sheng-zhang, LI Lu-juan, et al. Implications of cadmium and risk assessment of calcareous soil in karst area:a case study of Maocun in Guilin, China[J]. Journal of Jilin University:Earth Science Edition, 2016,46(2):552-562.
[10] ��,��,��־��.��ڸĽ��ģ�͵��:��ݵ��Ϊ��[J].�й��,2015,34(1):64-71. CUI Yu-liang, WANG Gen-hou, LI Zhi-yong. Risk assessment of karst collapse areas based on the improved fish bone model:an example of the Liuzhou area in Guangxi Province[J].Carsologica Sinica, 2015,34(1):64-71.
[11] ŷ��,��ǿ,�Ŵ��.��ڲ�ͬװ�õĶ�ά��ܶȵ編��̽Ч��Ƚ��[J].��,2011,30(3):451-458. OUYANG Yong-yong, XIONG Zhang-qiang, ZHANG Da-zhou. Comparison and analysis of 2D high-density electrical prospecting effect by different devices[J]. Global Geology, 2011,30(3):451-458.
[12] ��,��Ǳ�,��,��.��䷨�͸��ܶȵ編�ڹŻ��¿�̽�е�Ӧ��[J].��,2014,33(3):666-670. GE Jun-hui, LI Ya-bin, ZHAO Xiang-yang, et al. Application of high density electrical method and refraction method in landslide investigation[J]. Global Geology, 2014,33(3):666-670.
[13] ϰ��,��߽�,�޵��.GPR̽��̵��ߵļ��[J].��,2014,33(1):235-239. XI Jian-jun, WANG Zhe-jiang, CUI Dan-dan. Technical methods of ground penetrating radar in the detection of buried pipelines for electric power engineering[J]. Global Geology, 2014,33(1):235-239.
[14] ��ѷ�,��,��߽�,��.̽��״﷽��ԭ��Ӧ��[M].��:��ѧ��,2006:65-117. ZENG Zhao-fa, LIU Si-xin, WANG Zhe-jiang, et al. Theory and application of ground penetrating radar[M]. Beijing:Science Press, 2006:65-117.
[15] ��,��t,¹��,��.̽��״��ڹźӵ�ɰ��̻��е�Ӧ��[J].��,2016,35(1):223-234. CAO Song, FENG Xuan, LU Qi, et al. Application of GPR in depicting sedimentary reservoir of paleochannel sandstone bodies[J]. Global Geology, 2016,35(1):223-234.

��е��

1��, ��t, ¹��, ��ѷ�, ��翭, �ױ�.̽��״��ڹźӵ�ɰ��̻��е�Ӧ��[J]. ��, 2016,35(1): 223-234

2��־��, ��t, ¹��.LNAPL ��Ⱦ�Ｐˮ��ʯӢɰ��糣��Ӱ��[J]. ��, 2015,34(2): 551-556

3��, ��Ǳ�, ��, �ƽ, ��.��䷨�͸��ܶȵ編�ڹŻ��¿�̽�е�Ӧ��[J]. ��, 2014,33(3): 665-670

4��, ��, ��, ��ѷ�.��ͨ�Ӷ��Ѽ��ȶ��[J]. ��, 2012,31(2): 389-398

5��ŷ��,��ǿ��Ŵ��.��ڲ�ͬװ�õĶ�ά��ܶȵ編��̽Ч��Ƚ��[J]. ��, 2011,30(3): 451-458

6��, ��ٻ�, ��ǿ.��Ū��Ȫˮ��ѧ��̬�仯[J]. ��, 2009,28(1): 75-81