GGU-SLUGTEST: Literaturauswahl
BARKER, J.A. & BLACK, J.H. (1983): Slug tests in fissured aquifers.
Water Resources Research (19):6,1558-1564.
BOUWER, H. (1989): The Bouwer and Rice slug test - an update.
Ground Water (27):3,304-309.
BOUWER, H. & RICE, R.C. (1976): A slug test for determining hydraulic conductivity of unconfined aquifers with completely or partially penetrating wells.
Water Resources Research (12):3,423-428.
BREDEHOEFT, J.D. & PAPADOPULOS, S.S. (1980): A method for determining the hydraulic properties of tight formations. Water Resources Research (16):1,233-238.
COOPER, H.H. & PAPADOPULOS, J.D. BREDEHOEFT. I. S. (1967): Response of a finite-diameter well to an instantaneous charge of water.
Water Resources Research (33):1,263-269.
DA PRAT, G. (1981): Well test analysis for naturally-fractured reservoirs.
Diss. Univ. Stanford, 202 S.
DA PRAT, G. (1990): Well test analysis for fractured reservoir evaluation.
In: Developments in Petroleum Science 27, CHILINGARIAN, G.V. (Ed.),
1st Ed., Elsevier, Amsterdam, 210 S.
DOUGHERTY, D.E. (1989): Computing well hydraulics solutions.
Ground Water (27):4,564-569.
EARLOUGHER, R.C. (1977): Advances in well test analysis.
AIME, SPE OF (Ed.), 2nd Ed., New York, Dallas, 259 p.
FAUST, CH.R. & MERCER, J.W. (1984): Evaluating of slug tests in wells containing a finite-thickness skin. Water Resources Research (20):4,504-506.
FERRIS, J.G. & D.B. KNOWLES (1954): The slug test for estimating transmissivity.
U.S. Geol. Surv. Groundwater Note 26.
FLOPETROL (1983): Well test interpretation for monophasic oil by analysis of pressure
behavior. In: Systems Analysis Part 1,
SCHLUMBERGER, FLOPETROL (Ed.), Melun, France.
GRADER, A.S. & RAMEY, H.J. (1988): Slug-test analysis in double-porosity reservoirs.
SPE Formation Evaluation, June, 329-339.
GRINGARTEN, A.C. (1980): Well test interpretation.
Flopetrol Schlumberger 1.1-7.3.
HURST, W. (1953): Establishment of the skin effect and its impediment to fluid flow into a well bore. The Petroleum Engineer 10, B6-B16.
HVORSLEV, M.J. (1951): Time lag and soil permeability in groundwater observations.
U.S. Corps of Engineers, Waterways Experimental Station, Bull. 36.
TU BS (unpublished).
KARASAKI, K. (1986): Well test analysis in fractured media.
Diss. Univ. California, Berkeley, 239 S.
KARASAKI, K., LONG, J.C.S. & WITHERSPOON, P.A. (1988): Analytical models of slug tests. Water Resources Research (24):1,115-126.
KRUSEMANN, G.P. & DE RIDDER, N.A. (1973): Untersuchung und Anwendung
von Pumpversuchsdaten. 191 S., Cologne.
KRUSEMANN, G.P. & DE RIDDER, N.A. (1991): Untersuchung und Anwendung
von Pumpversuchsdaten.
ILRI Publication (47):1-377.
LANGUTH, H.-R. & VOIGT, R. (1980): Hydrogeologische Methoden. 486 p. Berlin.
MATEEN, K. (1983): Slug test data analysis in reservoirs with double porosity behavior.
Stanford Geothermal Program SGP-TR-70,1-91.
MATEEN, K. & RAMEY, H.J. (1984): Slug test data analysis in reservoirs with
double porosity behavior.
Paper SPE 12779,459-468.
MATTHEWS, C.S.; RUSSELL, D.G. (1967): Pressure buildup and flow tests in wells,
Monograph series 1, Society of Petroleum Engineers of AIME (Ed.),
Dallas, 356 S.
MOENCH, A.F. & OGATA, A. (1986): Analysis of constant discharge wells by
numerical inversion of Laplace transform solution.
In: Water Resources Monograph Series (9) Groundwater Hydraulics, ROSENSHEIN, J.S.& BENETT, G.D. (Ed.), 2nd Ed., S.146-170.
MOENCH, A.F. & HSIEH, P.A. (1985 a): Analysis of slug test data in a well
with finite thickness skin.
Memoires Int. Ass. Hydrogeologists (Hydrogeology of rocks of
low permeability) (17):1,17-29.
MOENCH, A.F. & HSIEH, P.A. (1985 b): Comment on "Evaluation of slug tests in wells
containing a finite thickness skin" by C.R. Faust and J.W. Mercer.
Water Resources Research (21):9,1459-1461.
NEUZIL, C.E. (1982): On conducting the modified 'slug' test in tight formations.
Water Resources Research (18):2,439-441.
NOVAKOWSKI, K.S. (1989 a): Analysis of pulse interference tests.
Water Resources Research (25):11,2377-2387.
OGBE, D.O. (1984): Pulse testing in the presence of wellbore storage and skin effects.
Diss. Univ. Stanford, 442 S.
PAPADOPULOS, S.S., BREDEHOEFT, J.D.& COOPER, H.H. (1973):
On the analysis of slug test data.
Water Resources Research (9):4,1087-1089.
Water Resources Research (25):7,1591-1602.
PERES, A.M.M., ONUR, M. & REYNOLDS, A.C. (1989 b): A new general pressure analysis procedure for slug-tests. Paper SPE 18801,553-565.
RAMEY, H.J., AGARWAL, R.G. & MARTIN, I. (1975): Analysis of slug test or DST flow period data. Journal of Canadian Petroleum Technology 3,37-47.
RÖSCH, A. (1990): Bohrlochtests zur Bestimmung der Wasserdurchlässigkeit.
In: Erfassung und Bewertung von Altablagerungen, Braunschweig,
Zentrum für Abfallforschung TU (Ed.),115-130.
RÖSCH, A. & SCHAAF, TH. (1989): Die Auswertung von Slug-Tests zur Bestimmung
der Gebirgsdurchlässigkeit.
Mitt. Inst. f. Grundbau und Bodenmechanik TU Braunschweig 30, 221-242.
RÖSCH, A. (1992): Bestimmung der hydraulischen Leitfähigkeit im Gelände -
Entwicklung von Messsystemen und Vergleich verschiedener Auswerteverfahren.
Diss.TU Braunschweig, 156 S.
SAGEEV, A. (1986): Slug test analysis.
Water Resources Research (22):8,1323-1333.
STEHFEST, H. (1970 a): Algorithm 368 - Numerical inversion of Laplace transforms.
Communications of the ACM (13):1,47-49.
STEHFEST, H. (1970 b): Remark on algorithm 368, numerical inversion of Laplace transforms. Communications of the ACM (13):10,624.
THEIS, CH.V. (1935): The relation between the lowering of the piezometric surface and the rate and duration of discharge of a well using ground-water storage.
Trans. Am. Geophys. Union 2,519-524.
THIEM, G. (1906): Hydrologische Methoden.
56 S.,J.M. Gebhardt, Leipzig.
VAN EVERDINGEN, A.F. (1953): The skin effect and its influence on the productive capacity of a well. Petroleum Transactions,
AIME (198):171-176.
VAN EVERDINGEN, A.F.& HURST, W. (1949): The application of the Laplace transformation to flow problems in reservoirs.
Petroleum Transactions AIME Dec., 305-324.
WARREN, J.E.& ROOT, P.J. (1963): The behavior of naturally fractured reservoirs.
Journal SPE 9,245-255.