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References 357

283. Prats, M., et al., “Prediction of Injection Rate and Production History for
Multifluid FiveSpot Floods,” J. Pet. Tech. (May 1959), pp. 98-105; Tmns.,
AIME, Vol. 216.
284. Caudle, B. H., and Witte, M. D., “Production Potential Changes During Sweep
Out in a Five-Spot Pattern,” Trans., AIME, Vol. 216 (1959), pp. 446-448.
285. Habermann, B., “The Efficiency of Miscible Displacement As a Function of
Mobility Ratio,” Trans., AIME, Vol. 219 (1960), pp. 264-272.
286. Kimbler, 0. K., Caudle, B. H., and Cooper, H. E., Jr., “Areal Sweep
out Behavior in a NineSpot Injection Pattern,” J. Pet. Tech. (Feb. 1964),
pp. 199-202.
287. Caudle, B. H., Erickson, R. A., and Slobod, R. L., ‘The Encroachment of
Injected Fluids Beyond the Normal Well Patterns,” Tmns., AIME, Vol. 204
(1955), pp. 79-85
288. Prats, M., Hazebroek, P., and Allen, E. E., “Effect of Off-Pattern Wells
on the Performance of a FiveSpot Waterflood,k J. Pet. Tech. (Feb. 1962),
pp. 173-178.
289. Prats, M., “The Breakthrough Sweep Efficiency of the Staggered Line Drive,”
Tram., AIME, Vol. 207 (1956), pp. 361-362.
290. Crawford, P. E., “Factors Affecting Waterflood Pattern Performance and
Selection,” J. Pet. Tech. (Dec. 1960), pp. 11-15.
291. Fassihi, M. R., “New Correlations for Calculation of Vertical Coverage and
Areal Sweep Efficiency,” SPE Reservoir Engimmhg (Nov. 1986), pp. 604-606.
292. Claridge, E. L., “Prediction of Recovery in Unstable Miscible Flooding,” SOC.
Pet. Eng. J. (April 1972), pp. 143-155.
293. Schmalz, J. P., and Rahme, H. D., “The Variation of Waterflood Performance
With Variation in Permeability Profile,” Prod. Monthly, Vol. 15, No. 9 (Sept.
1950), pp. 9-12.
294. Dykstra, H., and Parsons, R. L., “The Prediction of Oil Recovery by Water-
flood,” Secondary Rem9 of Oil in the United Stu@ API, Dallas (1950) second
edition, pp. 160-174.
295. Warren, J. E., and Casgrove, J. J., “Prediction of Waterflood Behavior in A
Stratified System,” SOC. Pet. Eng. J. (June 1964), pp. 149-157.
296. Johnson, C. E., Jr., “Prediction of Oil Recovery by Water Flood-A Simplified
Graphical Treatment of the Dykstra-Parsons Method,” Tram., AIME, Vol. 207
(l956), pp. 345-346.
297. desouza, A. O., and Bridham, W. E., “A Study on Dykstra-Parsons Curves,“
Tech. Report 29, Stanford University, Palo Alto (1981).
298. Craig, F. F., Jr., “Effect of Reservoir Description on Performance Predic-
tions,”J. Pet. Tech. (Oct. 1970), pp. 1239-1245.
299. Remik, A. A., Emick, R. M., and Panvelker, S. E., ‘An Analytical Extension
of the Dykstra-Parsons Vertical Stratification Discrete Solution to a Con-
tinuous, Real-Time Basis,” SOC. Pet. Eng. J. (Dec. 1984), pp. 643-656.
300. Root, P. J., and Skiba, F. F., “Crossflow Effects During an Idealized Process
in A Stratified Reservoir,“ SOC. Pet. Eng. J. (Sept. 1965), pp. 229-238.
301. Goddin, C. S., Jr., et al., “A Numerical Study of Waterflood Performance
in a Stratified System With Crossflow,” J. Pet. Tech. (June 1966), pp. 765-771.
302. El-Khatib, N., “The Effect of Crossflow on Waterflooding of Stratified
Reservoirs,” SOC. Pet. Eng. J. (April 1985), pp. 291-302.
303. Collins, H. N., and Wang, S. T., “Discussion of the Effect of Crossflow on
Waterflooding of Stratified Reservoirs,” SOC. Pet. E%. J. (Aug. 1985), p. 614.
304. El-Khatib, N., “Author’s Reply to Discussion of the Effect of Crossflow
on Waterflooding of Stratified Reservoirs,” SOC. Pet. Eng. J. (Aug. 1985),
p. 614.

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