[1] |
HUNG K M, HILL A D, SEPEHRNOORI K . A mechanistic model of wormhole growth in carbonate matrix acidizing and acid fracturing[J]. Journal of Petroleum Technology, 1989,41(1):59-66
doi: 10.2118/16886-PA
|
[2] |
GDANSKI R . A fundamentally new model of acid wormholing in carbonate[C]// paper SPE-54719-MS presented at the SPE European Formation Damage Conference, 31 May-1 June 1999, The Hague, Netherlands.
|
[3] |
FREDD C N, FOGLER H S . Influence of transport and reaction on wormhole formation in carbonate porous media[J]. AIChE Journal, 1998,44(9):1933-1949.
|
[4] |
KANG Q J, ZHANG D X, CHEN S Y , et al. Lattice Boltzmann simulation of chemical dissolution in porous media[J]. Physical Review E, 2002,65(3):1-8.
|
[5] |
GOLFIER F, ZARCONE C, BAZIN B , et al. On the ability of a Darcy scale model to capture wormhole formation during the dissolution of a porous medium[J]. Journal of Fluid Mechanics, 2001,457:213-254.
|
[6] |
李德同, 文世鹏 . 储层构造裂缝的定量描述和预测方法[J]. 石油大学学报: 自然科学版, 1996,20(4):6-10.
|
|
LI D T, WEN S P . Methods of quantitative description and prediction for structural fracture of subsurface reservoir[J]. Journal of the University of Petroleum, China(Edition of Natural Science), 1996,20(4):6-10.
|
[7] |
吕心瑞, 李红凯, 魏荷花 , 等. 碳酸盐岩储层多尺度缝洞体分类表征——以塔河油田S80单元奥陶系油藏为例[J]. 石油与天然气地质, 2017,38(4):813-821.
|
|
LYU X R, LI H K, WEI H H , et al. Classification and characterization method for multi-scale fractured-vuggy reservoir zones in carbonate reservoirs: An example from Ordovician reservoirs in Tahe oilfield S80 unit[J]. Oil & Gas Geology, 2017,38(4):813-821.
|
[8] |
刘遥, 荣元帅, 杨敏 . 碳酸盐岩缝洞型油藏缝洞单元储量精细分类评价[J]. 石油实验地质, 2018,40(3):431-438.
|
|
LIU Y, RONG Y S, YANG M . Detailed classification and evaluation of reserves in fracture-cavity units for carbonate fracture-cavity reservoirs[J]. Petroleum Geology & Experiment, 2018,40(3):431-438.
|
[9] |
金强, 田飞, 张宏方 . 塔河油田岩溶型碳酸盐岩缝洞单元综合评价[J]. 石油实验地质, 2015,37(3):272-279.
|
|
JIN Q, TIAN F, ZHANG H F . Comprehensive evaluation of fracture-cave units in karst carbonates in Tahe Oilfield, Tarim Basin[J]. Petroleum Geology & Experiment, 2015,37(3):272-279.
|
[10] |
肖阳, 何文, 罗慎超 , 等. 缝洞单元类型快速识别方法[J]. 油气地质与采收率, 2018,25(6):120-126.
|
|
XIAO Y, HE W, LUO S C , et al. A fast recognition method of fractured-vuggy unit type[J]. Petroleum Geology and Recovery Efficiency, 2018,25(6):120-126.
|
[11] |
李勇明, 郭建春, 赵金洲 , 等. 裂缝性油藏酸液滤失模型研究[J]. 西南石油学院学报, 2004,26,(2):50-53.
|
|
LI Y M, GUO J C, ZHAO J Z , et al. Study on acid leak-off in naturally-fractured reservoirs[J]. Journal of Southwest Petroleum Institute, 2004,26(2):50-53.
|
[12] |
IZGEC O, ZHU D, HILL A D . Numerical and experimental investigation of acid wormholing during acidization of vuggy carbonate rocks[J]. Journal of Petroleum Science and Engineering, 2010,74(1):51-66.
|
[13] |
柳明, 张士诚, 牟建业 . 碳酸盐岩酸化径向蚓孔扩展形态研究[J]. 油气地质与采收率, 2012,19(2):106-110.
|
|
LIU M, ZHANG S C, MOU J Y . Dissolution pattern of radial wormhole model in carbonate acidizing[J]. Petroleum Geology and Recovery Efficiency, 2012,19(2):106-110.
|
[14] |
牟建业, 李双明, 赵鑫 , 等. 基于真实孔隙空间分布的酸蚀蚓孔扩展规律数值模拟研究[J]. 科学技术与工程, 2014,14(35):40-46.
|
|
MOU J Y, LI S M, ZHAO X , et al. Modeling wormhole propataiton behavior based on real pore spatial distributions[J]. Science Technology and Engineering, 2014,14(35):40-46.
|
[15] |
罗源 . 裂缝性碳酸盐岩酸化模拟研究[D]. 成都:西南石油大学, 2015.
|
|
LUO Y . Research on the simulation of acid stimulation in fissured carbonate reservoir[D]. Chengdu: Southwest Petroleum University, 2015.
|
[16] |
AKANNI O O, NASR-EL-DIN H A . Modeling of wormhole propagation during matrix acidizing of carbonate reservoirs by organic acids and chelating agents[C]// paper SPE-181348-MS presented at the SPE Annual Technical Conference and Exhibition, 26-28 September 2016, Dubai, UAE.
|
[17] |
李勇明, 廖毅, 彭瑀 , 等. 非均质碳酸盐岩水平井酸化数值模拟与分析[J]. 油气藏评价与开发, 2016,6(4):53-58.
|
|
LI Y M, LIAO Y, PENG Y , et al. Numerical stimulation and analysis of horizontal well acidizing in heterogeneous carbonate rocks[J]. Reservoir Evaluation and Development, 2016,6(4):53-58.
|
[18] |
薛衡, 赵立强, 刘平礼 , 等. 碳酸盐岩多尺度三维酸蚀蚓孔立体延伸动态模拟[J]. 石油与天然气地质, 2016,37(5):792-798.
|
|
XUE H, ZHAO L Q, LIU P L , et al. Dynamic simulation of 3-D multiple-scale wormhole propagation in carbonate rocks[J]. Oil & Gas Geology, 2016,37(5):792-798.
|
[19] |
乐宏, 刘飞, 薛衡 , 等. 四川盆地下寒武统龙王庙组气藏转向酸酸化模拟及其应用[J]. 天然气工业, 2017,37(10):46-53.
|
|
YUE H, LIU F, XUE H , et al. Numerical simulation and field application of diverting acid acidizing in the Lower Cambrian Longwangmiao Fm gas reservoirs in the Sichuan Basin[J]. Natural Gas Industry, 2017,37(10):46-53.
|
[20] |
QIN G, CHEN R, GONG B , et al. Data-driven Monte Carlo simulations in estimating the stimulated reservoir volume (SRV) hydraulic fracturing treatments[C]// paper SPE-154537-MS presented at the SPE Europec/EAGE Annual Conference, 4-7 June 2012, Copenhagen, Denmark.
|
[21] |
杨坚, 吕心瑞, 李江龙 , 等. 裂缝性油藏离散裂缝网络随机生成及数值模拟[J]. 油气地质与采收率, 2011(6):74-77.
|
|
YANG J, LYU X R, LI J L , et al. Study on discrete fracture network random generation and numerical simulation of fractured reservoir[J]. Petroleum Geology and Recovery Efficiency, 2011,18(6):74-77.
|
[22] |
薛衡, 黄祖熹, 赵立强 , 等. 碳酸盐岩水平井酸化模式及工艺参数优化研究[J]. 油气藏评价与开发, 2018,8(3):66-72.
|
|
XUE H, HUANG Z X, ZHAO L Q , et al. Optimization study on horizontal well acidizing modes and injection parameters in carbonate reservoir[J]. Reservoir Evaluation and Development, 2018,8(3):66-72.
|
[23] |
KALIA N, BALAKOTAIAH V . Modeling and analysis of wormhole formation in reactive dissolution of carbonate rocks[J]. Chemical Engineering Science, 2007,62(4):919-928.
|
[24] |
CIVAN F . Scale effect on porosity and permeability: Kinetics, model, and correlation[J]. AIChE Journal, 2001,47(2):271-287.
doi: 10.1002/1097-4679(199103)47:2<271::aid-jclp2270470214>3.0.co;2-2
pmid: 2030134
|
[25] |
BALAKOTAIAH V, WEST D H . Shape normalization and analysis of the mass transfer controlled regime in catalytic monoliths[J]. Chemical Engineering Science, 2002,57(8):1269-1286.
|
[26] |
LI M, TANG Y B, BERNABE Y , et al. Pore connectivity, electrical conductivity, and partial water saturation: Network simulations[J]. Journal of Geophysical Research. Solid Earth, 2015,120(6):4055-4068.
|