參考文獻 |
Abramowitz, M. and I. A. Stegun, Handbook of Mathematical Functions., Dover Publications, 1972.
Agarwal, R. G., R. Al-Hussainy, and H. J. Ramey, Jr., An investigation of wellbore storage and skin effect in unsteady liquid flow: I. Analytical treatment, Soc. Pet. Eng. J., 279-290, 1970.
Bodvarsson, G., Confined fluids as strainmeters, J. Geophys. Res., 75(14), 2711-2718, 1970.
Bredehoeft J. D., Response of Well-Aquifer systems to earth tides, J. Geophys. Res., 72,3075-3087, 1967.
Brodsky, E. E., E. Roeloffs, D. Woodcock, I. Gall, and M. Manga, A mechanism for sustained groundwater pressure changes induced by distant earthquakes. J. Geophys. Res., 108(B8), 2390, doi:10.1029/2002JB002321, 2003.
Butler J. J., Jr., The Dsign, Performance, and Analysis of Slug Test, Boca Ration, Florida: Lewis Publishers, 1998.
Butler J. J., Jr., E. J. Granett and J. M. Healey, Analysis of slug tests in formations of high hydraulic conductivity, Ground water, 41, no.5, 620-630, 2003.
Chang, C. C., and C. S. Chen, SCIE, Field experiment and data analysis of a constant-head injection test with skin effects in a low-transmissivity aquifer, TAO, 13(1), 15-38, 2002a.
Chang, C. C., and C. S. Chen, An integral transform approach for a mixed boundary problem involving a flowing partially penetrating well with infinitesimal well skin, Water Resour. Res., 38(6), doi:10.1029/2001WR001091, 2002b.
Chen, C. S., and C. C. Chang, Use of cumulative volume of constant-head injection test to estimate aquifer parameters with skin effects: field experiment and data analysis, Water Resour. Res., 38(5), 1056, doi:10.1029/2001WR000300, 2002.
Chen, C. S., and C. C. Chang, SCI, Well hydraulics theory and data analysis for the constant head test in an unconfined aquifer with skin effect, Water Resour. Res, 39(5), 1121, doi:10.1029/2002WR001516, 2003.
Chia, Y. P., S. Wang, J. J. Chiu, and C. W. Liu, Changes of groundwater level due to the 1999 Chi-Chi earthquake in the Choshui River alluvial fan in Taiwan, Bull. Seismol. Soc. Am., 91(5), 1062-1068, 2001.
Chu, W. C., J. Garcia-Rivera, and R. Raghavan, Analysis of interference test data influenced by wellbore storage and skin at the flowing well, J. Pet. Tech., 171-178, 1980.
Cooper, H. H., J. J. D. Bredehoeft, I. S. Papadopulos, and R. R. Bennett, The response of well-aquifer system to seismic waves, J. Geophys. Res., 70(16), 3915-3926, 1965.
Eaton, J. P., and K. J. Takasaki, Seismological interpretation of earthquake-induced water-level fluctuations in well, Bull. Seismol. Soc. Am., 49, 227-245, 1959.
Freeze, R. A., and J. A. Cherry, Groundwater, 604pp., 1979.
Hsieh, P. A., J. D. Bredehoeft, and J. M. Farr, Determination of aquifer transmissivity from earth tide analysis, Water Resour. Res., 23(10), 1824-1932, 1987.
Kabala Z. J. G. F. Pinder, and P. C. D. Milly, Analysis of well aquifer response to a slug test, Water Resour. Res., 21(9), 1433-1436, 1985.
Kipp K. L., Type curve analysis of inertial effects in the response of a well to a slug test, Water Resour. Res., 21(9), 1397-1408,1985.
Lee, M., T-K, Liu, K-F Ma, and Y-M Chang, Coseismic hydrological changes associated with dislocation of the September 21, 1999, Chichi earthquake, Taiwan, Geophys. Res. Let., 29(17), 1824, doi:10.1029/2002GL015116, 2002.
Liu, L. B., E. Roeloffs, and X. Y. Zheng, Seismically induced water level fluctuations in the Wali well, Beijing, China, J. Geophys. Res., 94(7), 9456-9462, 1989.
McElwee, C. D., Butler, J. J., Jr., and Bohling, G. C., Nonlinear analysis of slug test in highly permeable aquifers using a Hvorslev-type approach, Kans. Geol. Surv. Open-File Rep., 92-39, 1992.
McElwee, C. D., and M. A. Zeener, A nonlinear model for analysis of slug test data, Water Resour. Res., 34, no.1, 55-66, 1998.
Moench, A. F., Flow to a well of finite diameter in a homogeneous, anisotropic water table aquifer, Water Resour. Res., 22(6), 1397-1407, 1997.
Ohno, M., H. Wakita, and K. Kanjo, A water well sensitive to seismic waves, Geophys. Res. Lett., 24, 691-694, 1997.
Roeloffs E., Poroelastic techniques in the study of earthquake-related hydrologic phenomena, adv. Geophy., 37, 135-195, Acadimic Press, San Diego, C. A, 1998.
Roeloffs, E. A., Persistent water level changes in a well near Parkfield, California, duu to local and distant earthquakes, J. Geophys. Res., 103(B1), 869-889, 1998.
Schwartz, F. W., and H. Zhang, Fundamentals of Ground Water, 583pp, 2003.
Sneddon, I. N., Fourier Transforms, 542pp., McGraw-Hill Book Company, New York, 1951.
Springer, R. K., and L. W. Gelhar, Characterization of large-scale aquifer heterogeneity in glacial outwash by analysis of slug tests with oscillatory response, Cape Cod, Massachusetts. U.S., Geological Survey Water-Resources Investigations Report, 91-4034, pp.3-40, 1991.
Streltsova, T. D., Well Testing in Heterogeneous Formations, 413pp., 1988.
Takashi, K., Y. Fukao, and M. Ohno, Underdamped responses of a well to nearby swarm earthquakes off the coast of Ito City, central Japan, 1995, J. Geophys. Res., 105, B4, 7805-7818, 2000.
Van der Kamp, Determining aquifer transmissivity by means of well response tests: the underdamped case, Water Resour. Res., 12(1), 71-77, 1976.
van Everdingen, A. F., The skin effect and its influence on the productive capacity of a well, Trans. Am. Inst. Min. Metall. Pet. Eng., 198, 171-176.
Wylie C. R., L. C. Barrett, Advanced Engineering Mathematics, 1103pp., 1982.
Zlotnik, V. A., and V. L. McGuire, 1998. Multi-level slug tests in highly permeable formations, 1, Modification of the Springer-Gelhar (SG) model, J. Hydrol 204: 271-282.
Zurbuchen B. R. V. A. Zlotnik, J. J. Butler, Dynamic interpretation of slug tests in highly permeable aquifers, Water Resour. Res., 38(3), 10.1029/2001WR000354, 2002. |