[1] 刘福平, 孔凡群, 刘立峰, 等. 河道砂油藏的自适应非均匀网格粗化算法[J]. 计算力学学报, 2003,(4): 84-91. [2] 李福垲, 由军, 陈立生. 地质模型网格粗化合并技术[J].石油勘探与开发, 1996, 23(3): 76-79. [3] Beg S H, Carter R R, Dranfield P. Assigning effective values to simulator gridblock parameters for heterogeneous reservoir[J]. SPE Reservoir Engineering, 1989,(11): 144-151. [4] Christie MA, Blunt M. Tenth comparative solution project: a comparisonofupscalingtechniques[J]. SPEReservoirEvaluation & Engineering, 2001,(8): 219-224. [5] Deutsch C. Calculating effective absolute per meability in sandstone/shale sequences[J]. SPE Formation Evaluation,1989,(9): 201-207. [6] Lasseter T J, Waggoner J R, Lake L W. Reservoir heterogeneities and their influence on ultimate recovery[J].Reservoir Characterization, Academic Press Inc., Orlando, FL, 1986: 545-554. [7] Honarpour MM, Cullick A S, Saad N, et al. Effective of rock heterogeneity on relative permeability: implications for scale up[A]. SPE 29311, 1995. [8] King P R, Muggeridge A H, Price WG. Renormalization calculations of immiscible flow[J]. Transport in Porous Media,1993, 12: 237-260. [9] Kossack CA, Aasen J O, Opdal ST. Scaling up heterogeneities with pseudofunctions[J]. SPE Formation Evaluation, 1990,(9): 161-167. [10] Li D. Scaling and upscaling of fluid flowthrough permeable media[A]. Ph. D. Dissertation the University of Texas at Austin, Texas, 1995. [11] Liu Keyu, Paterson Lincoln,Wang Patrick, et al. A sedi-mentological approach to upscaling[J]. Transport in Porous Media, 46: 285-310. [12] Qi D,Wong P M, Liu K. An improved global upscaling approach for reservoir simulation[J]. Petroleum Science and Technology, 2001, 19(7-8): 779-795. |