阿尔奇公式中饱和度指数影响因素及特征概述

阿尔奇公式中饱和度指数影响因素及特征概述

Aboujafar S M, Amara M A. 2013. A comparison between capillary and electrical properties of rock samples obtained at ambient conditions and reservoir conditions. //83rd Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Archie G E. 1942. The electrical resistivity log as an aid in determining some reservoir characteristics. Transactions of the AIME, 146(1): 54-62. doi: 10.2118/942054-G

Che Y. 2015. Study on the relationship between pore structure parameters and electrical properties of tight sandstone[Master's thesis](in Chinese). Chengdu: Southwest Petroleum University.

Chon B. 1989. Measurement of reservoir rock properties in their natural condition[Ph. D. thesis]. College Station: Texas A&M University, 27-38.

Cuiec L. 1984. Rock/crude-oil interactions and wettability: an attempt to understand their interrelation. //54th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Deng K J, Xie R H. 2010. Theory and Application of Nuclear Magnetic Resonance Measurement (in Chinese). Qingdao: China University of Petroleum Press, 46-47.

Deng S G, Bian R X, Fan Y R, et al. 1998. Study on rock resistivity dispersion and its effect on parameters for Archie Formula. Well Logging Technology (in Chinese), 22(4): 227-230.

Deng S G, Fan Y R, Duan Z F, et al. 2000. Experiment study of rock resistivity with multi-temperature and multi-salinity. Oil Geophysical Prospecting (in Chinese), 35(6): 763-767.

Dicker A I M, Bemelmans W A. 1984. Models for simulating the electrical resistance of porous media. //54th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Diederix K M. 1982. Anomalous relationships between resistivity index and water saturations in the Rotliegend sandstone (the Netherlands). //52th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Donaldson E C, Bizerra M J. 1984. Relationship of wettability to the Archie saturation exponent. //3rd international UNITAR/UNDP Heavy Crude and Tar Sands Conference, Preprints v. 2: United Nations Institute for Training and Research, Information Center for Heavy Crude and Tars, New York, 664-684.

Fan Y R, Lu J M, Wang G H, et al. 1994. Experimental study on the dispersion of rock resistivity. Journal of the University of Petroleum, China (in Chinese), 18(1): 17-23.

Fleury M. 2002. Resistivity in carbonates: new insights. //72nd Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts, 1-9.

Fleury M, Liu F H. 2000. Frequency effect on resistivity index curves using a new method. //70th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Gao C Q, Li X P, Wu H S, et al. 2003. An experimental study on the influence of temperature and pressure on petrophysical and electrical properties. Well Logging Technology (in Chinese), 27(2): 110-112.

Gao C Q, Zhang C G, Mao Z Q. 1998. The effects of wettability on the electrical properties of rocks. Progress in Geophysics (in Chinese), 13(1): 60-72.

Guan J T, Fang W J, Wang Y D. 1999. The effect of reservoir characteristics on Archie saturation index. Well Logging Technology (in Chinese), 23(6): 419-423.

Keller G V. 1953. Effect of wettability on the electrical resistivity of sand. Oil and Gas Journal, 51(1): 62-65.

Knackstedt M A, Arns C H, Sheppard A P, et al. 2007. Archie's exponents in complex lithologies derived from 3D digital core analysis. //77th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Kurniawan B, Bassiouni Z. 2007. Use of CEC-dependent cementation and saturation exponents in shaly sand resistivity models. //77th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Lewis M G, Sharma M M, Dunlap H F. 1988. Wettability and stress effects on saturation and cementation exponents. //58th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Li K Z, Ge X M, Wang H L, et al. 2011. Study on influence factors of saturation index of low porosity and permeability cores under experiment condition. Special Oil and Gas Reservoirs (in Chinese), 18(3): 35-38.

Li X, Li C L, Li B, et al. 2020. Response laws of rock electrical property and saturation evaluation method of tight sandstone. Petroleum Exploration and Development (in Chinese), 47(1): 202-212.

Li Z B. 2003. Geophysical Logging Data Processing and Comprehensive Interpretation (in Chinese). Changchun: Jilin University Press, 10-13.

Liu H P, Luo Y, Zhao Y C, et al. 2017. Effects of diagenetic facies on rock electrical properties in tight gas sandstones. Earth Science (in Chinese), 42(4): 652-660.

Liu X F, Li D Y, Zhao T P, et al. 2015. Effect of pore geometries on Archie's exponents in tight sandy conglomerate. //85th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Longeron D G. 1991. Laboratory measurements of cementation and saturation exponent under reservoir conditions on ASSB reservoir rock samples. SCA9117.

Lyle W D, Mills W R. 1989. Effect of nonuniform core saturation on laboratory determination of the archie saturation exponent. //59th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Marsden S S, Ramey H J, Sanyal S K. 1973. Effect of temperature on electrical resistivity of porous media. The Log Analyst, 14(1): 12-26.

Moore J. 1958. Laboratory determined electric logging parameters of the bradford third sand. Production Monthly, 25(3): 30-39.

Morgan W B, Pirson S L. 1964. The effect of fractional wettability on the archie saturation exponent. //34th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Ouyang J, Lin C Z, Yan J, et al. 1994. Oil log interpretation-an application science in geophysical logging disclpline. Well Logging Technology (in Chinese), 18(5): 313-317.

Ouyang J, Wang G W, Wu J Y, et al. 1999. Logging Geological Analysis and Quantitative Evaluation of Oil and Gas Reservoir (in Chinese). Beijing: Petroleum Industry Press, 121-128.

Patnode H W, Wyllie M R J. 1950. The presence of conductive solids in reservoir rocks as a factor in electric log interpretation. Journal of Petroleum Technology, 2(2): 47-52. doi: 10.2118/950047-G

Rust C F. 1957. A laboratory study of wettability effects on basic core parameters. //27th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Sbiga H. 2012. Electric properties and its effect on microporosity rocks. //82nd Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Shen A X, Chen S J, Wang L, et al. 2005. Experimental study of lithology and nuclear magnetic resonance for medium sand rock in low resistivity reservoir. Well Logging Technology (in Chinese), 29(3): 191-194.

Shen J S, Liu Z X, Wang S H, et al. 2010. Analysis of the mechanism of the effects of secondary porosities on the cementation factor and saturation index in reservoir formation with vuggs and fractures. Well Logging Technology (in Chinese), 34(1): 9-15.

Shi Y J, Xiao L, Mao Z Q, et al. 2011. An identification method for diagenetic facies with well logs and its geological significance in low-permeability sandstones: a case study on Chang 8 reservoirs in the Jiyuan region, Ordos basin. Acta Petrolei Sinica (in Chinese), 32(5): 820-828.

Shi Y J, Zhang X L, Shen Y B, et al. 2010. Rock-logging relation of Chang 6 formation, southeast of Ordos Basin. Progress in Geophysics (in Chinese), 25(5): 1716-1722, doi: 10.3969/j.issn.1004-2903.2010.05.027.

Song Y J, Jiang Y J, Song Y, et al. 2014. Experimental on the influencing factors of m and n of low resistivity oil reservoirs in southern Gulong Area. Journal of Jilin University (Earth Science Edition) (in Chinese), 44(2): 704-714.

Suman R J, Knight R J. 1997. Effects of pore structure and wettability on the electrical resistivity of partially saturated rocks; a network study. Geophysics, 62(4): 1151-1162. doi: 10.1190/1.1444216

Sun J M, Wu J L, Yu D G, et al. 2006. Influential factors in Archie parameters experiment. Petroleum Geology & Oil Field Development in Daqing (in Chinese), 25(2): 39-41.

Sweeney S A, Jennings H Y. 1960. The electrical resistivity of preferentially water-wet and preferentially oil-wet carbonate rocks. Producers Monthly, 24(5): 29-32.

Toumelin E, Torres-Verdín C. 2005. Influence of oil saturation and wettability on rock resistivity measurements: a uniform pore-scale approach. //75th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Wang J, Lü C Y, Hu Y H, et al. 2004. Experiment of rock resistivity under formation conditions. Petroleum Exploration and Development (in Chinese), 31(1): 113-115.

Wang K W. 2007. Reservoir rock electrical properties study based on percolation network model and upscaling[Ph. D. thesis] (in Chinese). Qingdao: China University of Petroleum (East China).

Wang K W, Sun J M, Guan J T. 2006. Impacts of reservoir wettability on resistivity. Natural Gas Industry (in Chinese), 26(12): 86-88.

Wang N. 2014. Effect of temperature, pressure and salinity on core electricity parameters. Science Technology and Engineering (in Chinese), 14(22): 141-145.

Wang Y, Zhang C G, Li J F, et al. 2006. Study on influencing factors of rock electrical parameters. Journal of Oil and Gas Technology (J. JPI) (in Chinese), 28(4): 75-77.

Wang Y M, Sharma M M. 1988. A network model for the resistivity behavior of partially saturated rocks. //58th Ann. Internat Mtg., Soc. Expi. Geophys. . Expanded Abstracts.

Wang Z H, Zhang C G. 2004. Logging Evaluation Method in Low Permeability Sand Reservoir (in Chinese). Beijing: Petroleum Industry Press, 39-42.

Wu X Y. 2016. Study on the relationship between permeability and electrical parameters of tight sandstone[Master's thesis] (in Chinese). Chengdu: Southwest Petroleum University, 39-41.

Xia H Q, Liu Z D, Li M, et al. 2002. Experimental study on the relationship between M, n parameters in Archie formula and formation water salinity, confining pressure and temperature. Foreign Well Logging Technology (in Chinese), 17(5): 51-54.

Xiao L, Zou C C, Mao Z Q, et al. 2013. Estimation of water saturation from nuclear magnetic resonance (NMR) and conventional logs in low permeability sandstone reservoirs. Journal of Petroleum Science and Engineering, 108: 40-51. doi: 10.1016/j.petrol.2013.05.009

Xie R H, Gao G Z, Feng Q N, et al. 2002. Wettability forecast of reservoirs using log data. Well Logging Technology (in Chinese), 26(4): 265-268.

Xiong J, Zhang C Y, Liu X J, et al. 2018. Study on the influence of confining pressure on m and n parameters of carbonate reservoir (in Chinese). //Electronic proceedings of CPS/SEG Beijing 2018 International Geophysical conference and Exhibition. Beijing: Editorial Department of Petroleum Geophysical Exploration, 1110-1113.

Yan J P, He X, Geng B, et al. 2017. Nuclear magnetic resonance T2 spectrum: multifractal characteristics and pore structure evaluation. Applied Geophysics, 14(2): 205-215. doi: 10.1007/s11770-017-0614-0

Yang C M, Wang J Q, Zhang M, et al. 2006. Analysis of saline type and salinity effect on parameters m, n and B of saturation evaluation models. Progress in Geophysics (in Chinese), 21(3): 926-931.

Yuan H H. 1992. The factors affecting saturation exponent, n. Journal of Jianghan Petroleum Institute (in Chinese), 14(2): 48-55.

Zhang F, Yan J P, Li Z Z, et al. 2017. Analysis of rock electrical parameters and Rw in Archie formula for clastic rock. Well Logging Technology (in Chinese), 41(2): 127-134.

Zhang H Z. 2014. Factors of influencing the determination of Archie parameters. Petroleum Geology and Oilfield Development in Daqing (in Chinese), 33(3): 155-157.

Zhao J, Liu X L, Li J F, et al. 2004. On Experimental relations of parameters m and n with different temperatures, pressures and salinities. Well Logging Technology (in Chinese), 28(4): 269-272.

Zhou X Q, Zhang C, Zhang Z S, et al. 2019. A saturation evaluation method in tight gas sandstones based on diagenetic facies. Marine and Petroleum Geology, 107: 310-325. doi: 10.1016/j.marpetgeo.2019.05.022

Zou C N, Tao S Z, Zhou H, et al. 2008. Genesis, classification and evaluation method of diagenetic facies. Petroleum Exploration and Development (in Chinese), 35(5): 526-540. doi: 10.1016/S1876-3804(09)60086-0

车宇. 2015. 致密砂岩孔隙结构参数与电学性质关系研究[硕士论文]. 成都: 西南石油大学.

邓克俊, 谢然红. 2010. 核磁共振测井理论及应用. 青岛: 中国石油大学出版社, 46-47.

邓少贵, 边瑞雪, 范宜仁, 等. 1998. 岩石电阻率频散及其对阿尔奇参数的影响. 测井技术, 22(4): 227-230.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS804.000.htm

邓少贵, 范宜仁, 段兆芳, 等. 2000. 多温度多矿化度岩石电阻率实验研究. 石油地球物理勘探, 35(6): 763-767.

https://www.cnki.com.cn/Article/CJFDTOTAL-SYDQ200006010.htm

范宜仁, 陆介明, 王光海, 等. 1994. 岩石电阻率频散现象的实验研究. 石油大学学报(自然科学版), 18(1): 17-23.

https://www.cnki.com.cn/Article/CJFDTOTAL-SYDX401.002.htm

高楚桥, 李先鹏, 吴洪深, 等. 2003. 温度与压力对岩石物性和电性影响实验研究. 测井技术, 27(2): 110-112.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS200302004.htm

高楚桥, 章成广, 毛志强. 1998. 润湿性对岩石电性的影响. 地球物理学进展, 13(1): 60-72.

http://www.progeophys.cn/article/id/dqwlxjz_2124

关继腾, 房文静, 王玉斗. 1999. 油藏储渗特性对阿尔奇饱和度指数的影响. 测井技术, 23(6): 419-423.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS199906006.htm

李奎周, 葛新民, 汪海龙, 等. 2011. 基于实验条件下的低孔低渗岩心饱和度指数影响因素研究. 特种油气藏, 18(3): 35-38.

https://www.cnki.com.cn/Article/CJFDTOTAL-TZCZ201103008.htm

李霞, 李潮流, 李波, 等. 2020. 致密砂岩岩电响应规律与饱和度评价方法. 石油勘探与开发, 47(1): 202-212.

https://www.cnki.com.cn/Article/CJFDTOTAL-SKYK202001022.htm

李舟波. 2003. 地球物理测井数据处理与综合解释. 长春: 吉林大学出版社, 10-13.

刘洪平, 骆杨, 赵彦超, 等. 2017. 致密砂岩气层中成岩相对岩电特征的影响. 地球科学, 42(4): 652-660.

https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX201704015.htm

欧阳健, 林纯增, 燕军, 等. 1994. 石油测井解释: 地球物理测井学中一支应用型学科. 测井技术, 18(5): 313-317.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS406.000.htm

欧阳健, 王贵文, 吴继余, 等. 1999. 测井地质分析与油气层定量评价. 北京: 石油工业出版社, 121-128.

沈爱新, 陈守军, 王黎, 等. 2005. 低电阻率油层中孔砂岩岩电及核磁实验研究. 测井技术, 29(3): 191-194.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS200503002.htm

沈金松, 刘子煊, 王素红, 等. 2010. 缝洞型储层中次生孔隙类型对胶结指数和饱和度指数影响的机理分析. 测井技术, 34(1): 9-15.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS201001005.htm

石玉江, 肖亮, 毛志强, 等. 2011. 低渗透砂岩储层成岩相测井识别方法及其地质意义——以鄂尔多斯盆地姬塬地区长8段储层为例. 石油学报, 32(5): 820-828.

https://www.cnki.com.cn/Article/CJFDTOTAL-SYXB201105013.htm

石玉江, 张小莉, 申贻博, 等. 2010. 鄂尔多斯盆地东南部长6储层岩电关系特征. 地球物理学进展, 25(5): 1716-1722, doi: 10.3969/j.issn.1004-2903.2010.05.027.

http://www.progeophys.cn/article/doi/10.3969/j.issn.1004-2903.2010.05.027

宋延杰, 姜艳娇, 宋杨, 等. 2014. 古龙南地区低阻油层胶结指数和饱和度指数影响因素实验. 吉林大学学报(地球科学版), 44(2): 704-714.

https://www.cnki.com.cn/Article/CJFDTOTAL-CCDZ201402034.htm

孙建孟, 吴金龙, 于代国, 等. 2006. 阿尔奇参数实验影响因素分析. 大庆石油地质与开发, 25(2): 39-41.

https://www.cnki.com.cn/Article/CJFDTOTAL-DQSK200602013.htm

汪中浩, 章成广. 2004. 低渗砂岩储层测井评价方法. 北京: 石油工业出版社, 39-42.

王建, 吕成远, 胡永华, 等. 2004. 地层条件下岩石电性特征实验研究. 石油勘探与开发, 31(1): 113-115.

https://www.cnki.com.cn/Article/CJFDTOTAL-SKYK200401036.htm

王克文. 2007. 基于逾渗网络模型和升尺度方法的储层岩石电性研究[博士论文]. 青岛: 中国石油大学(华东).

王克文, 孙建孟, 关继腾. 2006. 油气层润湿特性对电阻率的影响规律研究. 天然气工业, 26(12): 86-88.

https://www.cnki.com.cn/Article/CJFDTOTAL-TRQG200612024.htm

王楠. 2014. 温压及地层水矿化度变化对岩电参数的影响. 科学技术与工程, 14(22): 141-145.

https://www.cnki.com.cn/Article/CJFDTOTAL-KXJS201422027.htm

王勇, 章成广, 李进福, 等. 2006. 岩电参数影响因素研究. 石油天然气学报(江汉石油学院学报), 28(4): 75-77.

https://www.cnki.com.cn/Article/CJFDTOTAL-JHSX200604021.htm

吴需要. 2016. 致密砂岩渗透率与电学参数的关系研究[硕士论文]. 成都: 西南石油大学, 39-41.

夏洪泉, 刘之的, 李美, 等. 2002. 阿尔奇公式中m, n参数与地层水矿化度、围压和温度的实验关系研究. 国外测井技术, 17(5): 51-54.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS200504005.htm

谢然红, 高国忠, 冯启宁, 等. 2002. 用测井资料预测储层的润湿性. 测井技术, 26(4): 265-268.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS200204000.htm

熊健, 张重阳, 刘向君, 等. 2018. 围压对碳酸盐岩储层m和n参数的影响研究. //CPS/SEG北京2018国际地球物理会议暨展览电子论文集. 北京: 石油地球物理勘探编辑部, 1110-1113.

杨春梅, 王建强, 张敏, 等. 2006. 矿化度及水型变化对饱和度评价模型中m、n、B值的影响机理研究. 地球物理学进展, 21(3): 926-931.

http://www.progeophys.cn/article/id/dqwlxjz_445

原海涵. 1992. 影响饱和度指数n的因素. 江汉石油学院学报, 14(2): 48-55.

https://www.cnki.com.cn/Article/CJFDTOTAL-JHSX199202008.htm

张帆, 闫建平, 李尊芝, 等. 2017. 碎屑岩阿尔奇公式岩电参数与地层水电阻率研究进展. 测井技术, 41(2): 127-134.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS201702001.htm

张宏志. 2014. 影响阿尔奇参数测定的因素. 大庆石油地质与开发, 33(3): 155-157.

https://www.cnki.com.cn/Article/CJFDTOTAL-DQSK201403033.htm

赵军, 刘兴礼, 李进福, 等. 2004. 岩电参数在不同温度、压力及矿化度时的实验关系研究. 测井技术, 28(4): 269-272.

https://www.cnki.com.cn/Article/CJFDTOTAL-CJJS200404000.htm

邹才能, 陶士振, 周慧, 等. 2008. 成岩相的形成、分类与定量评价方法. 石油勘探与开发, 35(5): 526-540.

https://www.cnki.com.cn/Article/CJFDTOTAL-SKYK200805004.htm

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