Quantitative characterization to construct hard rock lithological model using dual resistivity borehole logging

详细信息    查看全文

• 作者：Subash Chandra ; Alexandre Boisson ; Shakeel Ahmed
• 关键词：Borehole geophysics ; Dual resistivity logger ; Hard rock aquifer ; Weathered ; Fractures ; Hydrogeological model
• 刊名：Arabian Journal of Geosciences
• 出版年：2015
• 出版时间：June 2015
• 年：2015
• 卷：8
• 期：6
• 页码：3685-3696
• 全文大小：3,208 KB
• 参考文献：Anderson MP (2005) Heat as a groundwater tracer. Ground Water 43(6):951鈥?68View Article
  Chandra S (2006) Contribution of geophysical properties in estimating hydrogeological parameters of an aquifer. Unpublished Ph.D. thesis. BHU, Varanasi, pp. 176
  Chandra S, Ananda Rao V, Singh VS (2004) A combined approach of Schlumberger and axial pole-dipole configurations for groundwater exploration in hard rock areas. Curr Sci 86(10):1437鈥?443
  Chandra S, Rao VA, Krishnamurthy NS, Dutta S, Shakeel A (2006) Integrated studies for characterization of lineaments to locate groundwater potential zones in hard rock region of Karnataka, India. Hydrogeol J 14:767鈥?76View Article
  Chandra S, Ahmed S, Ram A, Dewandel B (2008) Estimation of hard rock aquifers hydraulic conductivity from geoelectrical measurements: a theoretical development with field application. J Hydrol 35:218鈥?27View Article
  Chandra S, Atal S, Nagaiah E, Mallesh D, Krishnamraju P, Ahmeduddin M, Zaphu V, Seshamma NV, Rao VA, Ahmed S (2009) Electrical resistivity tomography survey to test the performance multi-electrode resistivity systems (Syscals). NGRI-2009-GW-690. p 26
  Chandra S, Dewandel B, Dutta S, Ahmed S (2010) Geophysical model of geological discontinuities in a granitic aquifer: analyzing small scale variability of electrical resistivity for groundwater occurrences. J Appl Geophys 71:137鈥?48View Article
  Chandra S, Ahmed S, Nagaiah E, Singh SK, Chandra PC (2011) Geophysical exploration for lithological control of arsenic contamination in groundwater in Middle Ganga Plains, India. Phys Chem Earth, Elsevier publication (on line published): doi:10.鈥?016/鈥媕.鈥媝ce.鈥?011.鈥?5.鈥?09
  Chatelier M, Ruelleu S, Bour O, Porel Gl, Delay F (2011) Combined fluid temperature and flow logging for the characterization of hydraulic structure in a fractured karst aquifer 400(3鈥?):377鈥?86
  Christensen NB (2009) Sensitivity function of EM method: a lecture note. Aarhus University, Denmark
  Dakhnov VN (1959) Geophysical well logging. Q Colo Sch Mines 57(2), 445 p
  Deng R, Guo H, Xiao C (2013) Apply array induction logging to study the low-resistivity belt zone identification method. Arab J Geosci. doi:10.鈥?007/鈥媠12517-013-1049-4
  Dewandel B, Lachassagne P, Wyns R, Mar茅chal JC, Krishnamurthy NS (2006) A generalized 3-D geological and hydrogeological conceptual model of granite aquifers controlled by single or multiphase weathering. J Hydrol 330:260鈥?84View Article
  Dewandel B, Gandolfi J-M, Zaidi FK, Ahmed S, Subrahmanyam K (2007) A decision support tool with variable agroclimatic scenarios for sustainable groundwater management in semi-arid hard rock areas. Curr Sci 92(8):1093鈥?102
  Dewandel B, Perrin J, Ahmed S, Aulong S, Hrkal Z, Lachassagne P, Samad M, Massuel S (2010) Development of a tool for managing groundwater resources in semi-arid hard rock regions. Application to a rural watershed in south India. Hydrol Process 24:2784鈥?797. doi:10.鈥?002/鈥媓yp.鈥?696 View Article
  Dewandel B, Mar茅chal JC, Ladouche B, Bour O, Ahmed S, Chandra S, Pauwels H (2011) A Conceptual hydrodynamic model of a geological discontinuity in hard rock aquifers: example of a quartz reef in granitic terrain in South India. J Hydrol 405:475鈥?87
  Keller GV, Frischknecht FC (1966) Electrical methods in geophysical prospecting First Edition. Pergamon Press, London, 519 pp
  Klepikova M, Le Borgne T, Bour O, Davy P (2011) A methodology for using borehole temperature-depth profiles under ambient, single and cross-borehole pumping conditions to estimate fracture hydraulic properties. J Hydrol 407:145鈥?52. doi:10.鈥?016/鈥媕.鈥媕hydrol.鈥?011.鈥?7.鈥?18
  Krishnamurthy NS, Chandra S, Kumar D (2007) Characterization of hard rock aquifer. A chapter in book 鈥淕roundwater dynamics in hard rock aquifers鈥? Capital Publishing Company, pp 64-86
  Loke MH (2000) Electrical imaging surveys for environmental and engineering studies: a practical guide to 2-D and 3-D surveys, p 67
  Loke MH, Barker RD (1996) Rapid least-squares inversion of apparent resistivity pseudo sections using a quasi-Newton method. Geophys Prospect 44:131鈥?52View Article
  Lynch EJ (1962) Formation evaluation. Harper鈥檚 Gosciences Services, Harper & Row
  Mar茅chal JC, Dewandel B, Subrahmanyam K (2004) Use of Hydraulic test at different scales to characterize fracture network properties in the weathered-fractured layer of hard rock aquifer. Water Resour Res 40(W11508):1鈥?7
  Molz FJ, Morin RH, Hess AE, Melville JG, Guven O (1989) The impeller meter for measuring aquifer permeability variations: evaluation and comparison with other tests. Water Resour Res 25(7):1677鈥?683View Article
  Neuman SP (2005) Trends, prospects and challenges in quantifying flow and transport through fractured rocks. Hydrogeol J 13:124鈥?47View Article
  Paillet FL (1998) Flow modeling and permeability estimation using borehole flow logs in heterogeneous fractured formations. Water Resour Res 34(5):997鈥?010View Article
  Pehme PE, Parker BL, Cherry JA, Greenhouse JP (2009) Improved resolution of ambient flow through fractured rock with temperature logs. Ground Water 48(2):191鈥?05View Article
  Perrin J, Mohamed W (2008) Borewell drilling report of Hydrogeological Park, Choutuppal. IFCGR-2008, p 20
  Perrin J, Mascr茅 C, Pauwels H, Ahmed S (2011) Solute recycling: an emerging threat to groundwater resources in southern India? J Hydrol. doi:10.鈥?016/鈥媕.鈥媕hydrol.鈥?010.鈥?2.鈥?24
  Roy A, Apparao A (1971) Depth of investigation in direct current methods. Geophysics 36:943鈥?59View Article
  Sonkamble S, Chandra S, Nagaiah E, Dar FA, Somvanshi VK, Ahmed S (2013) Geophysical signatures resolving hydrogeological complexities over hard rock terrain鈥攁 study from Southern India. Arab J Geosci. doi:10.鈥?007/鈥媠12517-013-0931-4
  Telford WM, Geldart LP, Sheriff RE, Keys DA (1976) Applied geophysics. Cambridge University Press, New York, 860 pp
  
• 作者单位：Subash Chandra (1)
  Alexandre Boisson (2)
  Shakeel Ahmed (1)
  
  1. CSIR-National Geophysical Research Institute, Indo-French Centre for Groundwater Research, Uppal Road, Hyderabad, 500007, India
  2. BRGM, D3E/NRE, Indo-French Centre for Groundwater Research, Uppal Road, Hyderabad, 500007, India
  
• 刊物类别：Earth and Environmental Science
• 出版者：Springer Berlin Heidelberg
• ISSN：1866-7538

文摘

Borehole logging is a very robust tool to accurately locate transitions between weathered layers and fractures in hard rock settings; therefore, it can help substantially in the construction of regional and local hydrogeological models. A simple and low-cost resistivity probe, named dual resistivity logger (DRL), was experimented to map the formation resistivity at two investigation distances by means of three active electrodes. Forward response of DRL was analysed on the synthetic data generated for a conceptual hard rock hydrogeological model as well as tested at two field sites in hard rock aquifers of southern India. The DRL was proven efficient in demarcating the aquifer into successive hydrogeological zones, i.e. the laminated-fissured (L-F), the fissured-semi-fissured (F-SF), and semi-fissured-basement (SF-B) layers. The results were verified by comparison with well lithologs based on rock cuttings and temperature logging. The DRL has proven its ability to locate the hydraulically active fractures as well as contacts between weathered layers. It offers a simple but efficient way to acquire underground data for building hydrogeological models.