Liao Xin, Liu Chunping, Shi Yun, Tang Yandong, Wang Fuchang, Wan Fei. 2014: Changes in solid tidal effect of water level in the well Chuan06. Acta Seismologica Sinica, 36(2): 299-305. DOI: 10.3969/j.issn.0253-3782.2014.02.014
Citation: Liao Xin, Liu Chunping, Shi Yun, Tang Yandong, Wang Fuchang, Wan Fei. 2014: Changes in solid tidal effect of water level in the well Chuan06. Acta Seismologica Sinica, 36(2): 299-305. DOI: 10.3969/j.issn.0253-3782.2014.02.014

Changes in solid tidal effect of water level in the well Chuan06

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  • Received Date: November 08, 2012
  • Revised Date: June 02, 2013
  • Published Date: February 28, 2014
  • This paper analyzes the impact of wellbore storage effect on the well tide and that of transmissivity and storativity on tidal drainage response so as to discuss the origin for changes of well tide. Through tidal analysis of water level data monitored in the well Chuan06, and judgment of undrained response, we obtained amplitude response (A) and phase shift (η) of tidal constituents M2 and O1 caused by the wellbore storage effect by removing the influence of fracture effect, and then comparatively analyzed Hsieh model and the actual relation between A and η. The results show that the changes in the well tide could be attributed to the changes in the wellbore storage effect, where as the changes in the hydraulic response were mainly attributed to the changes in transmissivity rather than that in storativity.
  • 廖欣 , 刘春平, 万飞, 石云, 邓亮. 2009. 引潮力作用下饱和地质岩体的力学响应[J]. 中国地震, 25 (4): 286-293.

    Liao X, Liu C P, Wan F, Shi Y, Deng L. 2009. Mechanical response of saturated geological rock under the tidal force[J]. Earthquake Research in China, 25 (4): 286-293 (in Chinese).
    廖欣, 刘春平, 杨贤和, 田育萍, 石云, 唐彦东. 2011. 承压井水位对含水层潮汐应力响应是否满足不排水条件的检验[J]. 地震学报, 33 (2): 234-242.

    Liao X, Liu C P, Yang X H, Tian Y P, Shi Y, Tang Y D. 2011. Undrained examination of tidal response of water level in confined well[J]. Acta Seismologica Sinica, 33 (2): 234-242 (in Chinese).
    张昭栋, 郑金涵, 冯初刚. 1991. 深井水位的固体潮效应[J]. 地震学报, 13 (1): 66-75.

    Zhang Z D, Zheng J H, Feng C G. 1991. Effect of earth tide on deep well water level[J]. Acta Seismologica Sinica, 13 (1): 66-75 (in Chinese).
    Bower D R. 1983. Bedrock fracture parameters from the interpretation of well tides[J]. J Geophys Res, 88 (B6): 5025-5035.
    Bredehoeft J D. 1967. Response of well-aquifer systems to earth tides[J]. J Geophys Res, 72 (12): 3075-3087.
    Doan M L, Brodsky E E, Prioul R, Signer C. 2006. Tidal Analysis of Borehole Pressure: A Tutorial[R]. Santa: University of California: 1-61.
    Elkhoury J E, Brodsky E E, Agnew D C. 2006. Seismic waves increase permeability[J]. Nature, 441 : 1135-1138.
    Hsieh P A, Bredehoeft J D, Farr J M. 1987. Determination of aquifer transmissivity from earth tide analysis[J]. Water Resour Res, 23 (10): 1824-1832.
    Ishiguro M, Tamura Y. 1985. BAYTAP-G in TIMSAC-84[J]. Computer Science Monographs, 22 : 56-117.
    Narasimhan T N, Kanehiro B Y, Witherspoon P A. 1984. Interpretation of earth tide response of three deep, confined aquifers[J]. J Geophys Res, 89 (B3): 1913-1924.
    Ritzi Jr R W, Sorooshian S, Hsieh P A. 1991. The estimation of fluid flow properties from the response of water levels in wells to the combined atmospheric and earth tide forces[J]. Water Resour Res, 27 (5): 883-893.
    Roeloffs E A. 1996. Poroelastic techniques in the study of earthquake-related hydrologic phenomena[J]. Adv Geophys, 37 : 135-195.
    Tamura Y. 1987. A harmonic development of the tide-generating potential[J]. Marees Terrestres Bulletin d'Informations, 99 : 6813-6855.
    Tamura Y, Sato T, Ooe M, Ishiguro M. 1991. A procedure for tidal analysis with a Bayesian information criterion[J]. Geophys J Int, 104 (3): 507-516.
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