[1] Mehdi Jafari et al., Gravity Drainage Mechanism and Estimation of Oil Recovery in Iranian Carbonate Cores' Petroleum & Coal, (2008).
[2] Barenblatt, G.E, Zheltov, I.P. and Kochina, I.N., Basic Concepts in the Theory of Seepage of Homogeneous Liquids in Fissured Rocks, J. Appl. Math. and Mech., p. 1286 (1960).
[3] Saidi, A., Simulation of Naturally Fractured Reservoir, Paper SPE12270 Presented at the SPE Symposium on Reservoir Simulation, San Francisco, November 16-18 (1983).
[4] Ferno, M.A., Ersland, G., Haugen, A., Stevens, J. and Howard, J.J., "Visualizing Fluid Flow with Mariin Oil-Wet Fractured Carbonate Rock" SCA2007-12 (2007).
[5] Eirik Aspenes, "Wettability Effects on Oil Recovery Mechanismsin Fractured Chalk", Bergen, November, (2006).
[6] Saidi, A., Tehrani, D.H. and Wit, K., 1980. “Mathematical Simulation of Fracture Reservoir Performance, Based on Physical Model Experiments”, Developments in Reservoir Engineering, paper PD 10 (3)-Proceedings 10th World Petroleum Congress (1979).
[7] Horie, T., Firoozabadi, A., Ishimoti,. K., Laboratory Studies of Capillary Interaction in Fracture Reservoir Systems, SPE-18282, SPE Reservoir Engineering, 5 (3), p. 353 (1990).
[8] Stones, E.J., Mardsen, S.S. and Zimmerman, S.A. “Gravity-Induced Drainage from Fractured Porous Media”, SPE 24042, Presented at the Western Regional Meeting, Bakersfield, CA, March 30-April 1, (1992).
[9] Festoy, S. and Van Golf-Racht, T.D., Gas Gravity Drainage in Fracture Reservoir through New Dual Continuum Approach”, SPE Reservoir Engineering, Aug., p. 271-278 (1989).
[10] Sajadian, V.A., NIOC Research Institute of Petrleum Industry, Danesh, A., Tehrani, D.H., Heriote-Wett University, Laboratory Studies of Gravity Drainage Mechanism in Fractured Carbonate Reservoir-Capillary Continuity”, SPE 494970,(1998).
[11] Sajadian, V.A., NIOC Research Institute of Petrleum Industry, Danesh, A., Tehrani, D.H., Heriote-Wett University, “Laboratory Studies of Gravity Drainage Mechanism in Fractured Carbonate Reservoir-Reinfilteration”, SPE 54003 (1999).
[12] Mahendra Prarap, SPE, ONGC Ltd, India, Jon Kleppe, SPE, NTNU, Norway and Knut Uleberg, NTNU, Norway, “Vertical Capillary Continuity Between the Matrix Blocks in a Fracture Reservoir Significantly Improves the Oil Recovery by Water Displacement”, SPE 37725 (1997).
[13] PARSI FIELD Full Field Study and Master Development Plane Phase 2, Conteract NO. MED-79144-MEOL-Extention, Parsi Field Geology Report, August 2005, Kanaz Moshaver.
[14] Kazemi, H, Merrill, L.S., Jr., Porterfield, K.L. and Zeman, P.R., Numerical Simulation of Water-Oil Flow in Naturally Fracture Reservoir, Soc. Pet. Eng. J., 16, p. 317 (1976).
[15] Parsi Full Field Model, Reservoir Fluid Characteristics and Core Analysis, Reservoir Engineering, Sub Volume 2.6. (2005).