“Intelligent Systems Can Design Optimum Fracturing Jobs”, Mohaghegh et al., Society of Petroleum Engineers, SPE 57433, Oct. 21-22, 1999.* |
“Fractured reservoir Characterization Using Streamline-Based Inverse Modeling and Artifical Intelligence Tools”, Barman et al., Society of Petroleum Engineers, SPE 63067, Oct. 1-4, 2000.* |
“A Hybrid Neuro-Genetic Approach to Hydraulic fracture Treatment Design and Optimization”, Mohaghegh et al., Society of Petroleum Engineers, SPE 36602, Oct. 6-9, 1996.* |
“Integrated Fractured reservoir Modeling Using Both Discrete and Continuum Approaches”, Ouenes et al., Society of Petroleum Engineers, SPE 62939, Oct. 1-4, 2000.* |
Perkins, T. K. and Kern, L. R.: “Widths of Hydraulic Fractures,” Journal of Petroleum Technolgy, Sep., 1961, pp. 937-949. |
Ramey, Jr., H. J., “Wellbore Heat Transmission,” Journal of Petroleum Technology, Apr., 1962, pp. 427-435. |
Wooley, Gary, R., “Computing Downhole Temperature in Petroleum and Geothermal Wells,” SPE 8441, presented at the 54th Annual Fall Technical Conference and Exhibition of the Society of Petroleum Engineers of AIME, held at Las Vegas, Nevada, Sep. 1979. |
Wheeler, J. A., “Analytical Calculations for Heat Transfer from Fractures,” SPE 2494 (1969). |
Kamphius, H., Davies, D. R. and Roodhart, L. P., “A New Simulator for the Calculation of the In-Situ Temperature Profile During Well Stimulation Fracturing Treatments,” Paper No. CIM/SPE 90-46, presented at the International Technical Meeting jointly hosted by the Pertoleum Society of CIM and the Society of Petroleum Engineers in Calgary, Jun. 1990. |
Nolte, Kenneth G., “Fluid Flow Considerations in Hydraulic Fracturing,” SPE 18537, prepared for presentation at the SPE Eastern Regional Meeting in Charleston, West Virginia, Nov. 1988. |
Leal, L. G., “Particle Motions in a Viscous Fluid,” Ann. Rev. Fluid Mech. (1980), 12:435-76. |
Cleary, M. P. and Fonseca, Jr., Amaury, “Proppant Convection and Encapsulation in Hydraulic Fracturing: Practical Implications of Computer and Laboratory Simulations,” SPE 24825, prepared for presentation at the 67th Annual Technical Conference and Exhibition of the Society of Petroleum Engineers held in Washington, D.C., Oct. 1992. |
Pearson, J.R.A., “On Suspension Transport in a Fracture: Framework for a Global Model,” Journal of Non-Newtonian Fluid Mechanics 54 (1994) 503-513. |
Economides, M. J. and Nolte, K. G., “Reservoir Simulation 3rd Edition,” John Wiley and Sons, LTD (2000), pp. 8-18 through 8-23. |
Mobbs, A. T. and Hammond, P. S., “Computer Simulations of Proppant Transport in a Hydraulic Fracture,” SPE Production & Facilities, May 2001, pp. 112-121. |
Soliman, M.Y. and Hunt, J.L., “SPE 14514—Effect of Fracturing Fluid and Its Cleanup on Well Performance,” Society of Petroleum Engineers, 12 pp. (1985). |
Soliman, Mohamed, “Fracture Conductivity Distribution Studied,” Technolgy—Oil & Gas Journal, pp. 89-93 (Feb. 10, 1986). |
Poulsen, D.K. and Soliman, M.Y., “SPE 15940—A Procedure for Optimal Hydraulic Fracturing Treatment Design,” Society of Petroleum Engineers, 8 pp. (1986). |
“Experience Proves Forced Fracture Closure Works” by John W. Ely in the World Oil Published in Jan. 1996. |
“Horizontal Well will be Employed in Hydraulic Fracturing Reasearch” published in the Oil & Gas Journal on May 20, 1991. |