Aquifer Testing Reference List. General. Agarwal, R. G., 1. 98. 0. A new method to account for producing time effects when drawdown type curves are used to analyze pressure buildup and other test data, SPE Paper 9. SPE Annual Technical Conference and Exhibition, Dallas, TX, Sept. Barlow, P. M., and A. F. Moench, 1. 99. WTAQ - A computer program for calculating drawdowns and estimating hydraulic properties for confined and water- table aquifers, U. S. Geological Survey Water- Resources Investigations Report 9. Bourdet, D., 2. 00. Well Test Analysis: The Use of Advanced Interpretation Models, Elsevier, New York, 4. Kruseman, G. P. and N. A. de Ridder, 1. 99. Analysis and Evaluation of Pumping Test Data (2nd ed.), Publication 4. Intern. Inst. for Land Reclamation and Improvement, Wageningen, The Netherlands, 3. Nielsen, K. A., 2. Fractured Aquifers: Formation Evaluation by Well Testing, Trafford Publishing, Victoria, BC, Canada, 2. Streltsova, T. D., 1. Well Testing in Heterogeneous Formations, John Wiley & Sons, New York, 4. USEPA, 1. 99. 3. Suggested operating procedures for aquifer pumping tests (EPA/5. S- 9. 3/5. 03), Robert S. Kerr Environmental Research Laboratory, Ada, Oklahoma, 2. Walton, W. C., 1. The engineering properties of rocks are those that are important to the behavior or integrity of a structure or an excavation. The function required of the rock. Selected analytical methods for well and aquifer evaluation, Illinois State Water Survey Bulletin 4. Urbana, Illinois, 8. Walton, W. C., 1. Groundwater Resource Evaluation, Mc. Graw- Hill, New York, 6. Reservoir simulation is an area of reservoir engineering in which computer models are used to predict the flow of fluids (typically, oil, water, and gas) through. Effects of pH and Salt Concentration on Oil-in-Water Emulsions Stabilized Solely by Nanocomposite Microgel Particles. Petroleum, in one form or another, has been used since ancient times, and is now important across society, including in economy, politics and technology. Woessner, W. W. and M. P. Anderson, 2. 00. The hydro- malaprop and the ground water table, Ground Water, vol. Confined Aquifers. Butler, J. J., Jr., 1. Pumping tests in nonuniform aquifers—the radially symmetric case, Journal of Hydrology, vol. Butler, J. J., Jr. W. Z. Liu, 1. 99. Pumping tests in nonuniform aquifers—the linear strip case, Journal of Hydrology, vol. Clonts, M. D. and H. J. Ramey, Jr., 1. Pressure transient analysis for well with horizontal drainholes, SPE Paper 1. California Regional Meeting, Oakland, CA, April 2- 4, 1. Cooper, H. H. and C. E. Jacob, 1. 94. 6. A generalized graphical method for evaluating formation constants and summarizing well field history, Am. Geophys. Union Trans., vol. Daviau, F., Mouronval, G., Bourdarot, G. P. Curutchet, 1. 98. Pressure analysis for horizontal wells, SPE Paper 1. Annual Technical Conference and Exhibition in Las Vegas, NV, Sept. Hantush, M. S., 1. Flow of ground water in sands of nonuniform thickness; 3. Flow to wells, Jour. Geophys. Res., vol. Murdoch, L. C., 1. Transient analyses of an interceptor trench, Water Resources Research, vol. Novakowski, K. S., 1. A composite analytical model for analysis of pumping tests affected by well bore storage and finite thickness skin, Water Resources Research, vol. Ozkan, E., Raghavan, R. S. D. Joshi, 1. 98. Horizontal- well pressure analysis, SPE Formation Evaluation (December 1. Papadopulos, I. S., 1. Nonsteady flow to a well in an infinite anisotropic aquifer, Proceedings of the Dubrovnik Symposium on the Hydrology of Fractured Rocks, International Association of Scientific Hydrology, pp. Papadopulos, I. S. H. H. Cooper, 1. 96. Drawdown in a well of large diameter, Water Resources Research, vol. Rasmussen, T. C., Haborak, K. G. and M. H. Young, 2. Estimating aquifer hydraulic properties using sinusoidal pumping at the Savannah River Site, South Carolina, USA, Hydrogeology Journal, vol. Theis, C. V., 1. 93. The relation between the lowering of the piezometric surface and the rate and duration of discharge of a well using groundwater storage, Am. Geophys. Union Trans., vol. Unconfined Aquifers. Akindunni, F. F. and R. W. Gillham, 1. 99. Unsaturated and saturated flow in response to pumping of an unconfined aquifer: numerical investigation of delayed drainage, Ground Water, vol. Barlow, P. M., and A. F. Moench, 1. 99. WTAQ - A computer program for calculating drawdowns and estimating hydraulic properties for confined and water- table aquifers, U. S. Geological Survey Water- Resources Investigations Report 9. Boulton, N. S., 1. The flow pattern near a gravity well in a nonuniform water bearing medium, Journal of the Institution of the Civil Engineer, vol. Boulton, N. S., 1. The drawdown of the water- table under non- steady conditions near a pumped well in an unconfined formation, Proceedings of the Institution of Civil Engineers, Part III, pp. Boulton, N. S., 1. Unsteady radial flow to a pumped well allowing for delayed yield from storage, International Association of Scientific Hydrology, pub. Boulton, N. S., 1. Analysis of data from non- equilibrium pumping tests allowing for delayed yield from storage, Proceedings of the Institution of Civil Engineers, vol. Boulton, N. S., 1. Analysis of data from pumping tests in unconfined anisotropic aquifers, Journal of Hydrology, vol. Dagan, G., 1. 96. A method of determining the permeability and effective porosity of unconfined anisotropic aquifers, Water Resources Research, vol. Halford, K. J., 1. Effects of unsaturated zone on aquifer test analysis in a shallow- aquifer system, Ground Water, vol. Halford, K. J., Weight, W. D. and R. P. Schreiber, 2. Interpretation of transmissivity estimates from single- well pumping aquifer tests, Ground Water, vol. Kroszynski, U. I. G. Dagan, 1. 97. 5. Well pumping in unconfined aquifers: the influence of the unsaturated zone, Water Resources Research, vol. Mathias, S. A. and A. P. Butler, 2. 00. Flow to a finite diameter well in a horizontally anisotropic aquifer with wellbore storage, Water Resources Research, vol. W0. 75. 01, doi: 1. WR0. 05. 83. 9. Mishra, P. K. and S. P. Neuman, 2. Improved forward and inverse analyses of saturated- unsaturated flow toward a well in a compressible unconfined aquifer, Water Resources Research, vol. W0. 75. 08, doi: 1. WR0. 08. 89. 9. Mishra, P. K. and S. P. Neuman, 2. Saturated- unsaturated flow to a well with storage in a compressible unconfined aquifer, Water Resources Research, vol. W0. 55. 53, doi: 1. WR0. 10. 17. 7. Moench, A. F., 1. 99. 3. Computation of type curves for flow to partially penetrating wells in water- table aquifers, Ground Water, vol. Moench, A. F., 1. Combining the Neuman and Boulton models for flow to a well in an unconfined aquifer, Ground Water, vol. Moench, A. F., 1. Flow to a well in a water- table aquifer: an improved Laplace transform solution, Ground Water, vol. Moench, A. F., 1. Flow to a well of finite diameter in a homogeneous, anisotropic water table aquifer, Water Resources Research, vol. Moench, A. F., 1. Correction to 'Flow to a well of finite diameter in a homogeneous, anisotropic water- table aquifer,' Water Resources Research, vol. Moench, A. F., 2. Importance of the vadose zone in analyses of unconfined aquifer tests, Ground Water, vol. Moench, A. F., Garabedian, S. P. and D. R. Le. Blanc, 2. Estimation of hydraulic parameters from an unconfined aquifer test conducted in a glacial outwash deposit, Cape Cod, Massachusetts, U. S. Geological Survey Professional Paper 1. Moench, A. F. and T. A. Prickett, 1. 97. Radial flow in an infinite aquifer undergoing conversion from artesian to water- table conditions, Water Resources Research, vol. Narasimhan, T. N. M. Zhu, 1. 99. 3. Transient flow of water to a well in an unconfined aquifer: applicability of some conceptual models, Water Resources Research, vol. Neuman, S. P., 1. Theory of flow in unconfined aquifers considering delayed gravity response of the water table, Water Resources Research, vol. Neuman, S. P., 1. Supplementary comments on ‘Theory of flow in unconfined aquifers considering delayed gravity response of the water table’, Water Resources Research, vol. Neuman, S. P., 1. Effect of partial penetration on flow in unconfined aquifers considering delayed gravity response, Water Resources Research, vol. Neuman, S. P., 1. Analysis of pumping test data from anisotropic unconfined aquifers considering delayed gravity response, Water Resources Research, vol. Neuman, S. P., 1. Perspective on ‘delayed yield’, Water Resources Research, vol. Neuman, S. P., 1. On methods of determining specific yield, Ground Water, vol. Nwankwor, G. I., Cherry, J. A. and R. W. Gillham, 1.
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