微观剩余油仿真研究进展

doi:10.3969/j.issn.1673-8926.2013.01.004

Lithologic Reservoirs ›› 2013, Vol. 25 ›› Issue (1): 16-20.doi: 10.3969/j.issn.1673-8926.2013.01.004

Previous Articles Next Articles

Research progress on simulation of microscopic remaining oil

PAN Shaowei¹， LIANG Hongjun²， LI Liang²， LUO Haining³， WANG Jiahua¹

1. School of Computer Science， Xi’an Shiyou University， Xi’an 710065， China； 2. Research Institute of Exploration and Development，PetroChina Changqing Oilfield Company， Xi’an 710018， China； 3. Research Institute of Exploration and Development， PetroChina Tarim Oilfield Company， Korla 841000， China

Online:2013-02-20 Published:2013-02-20

Abstract

Abstract:

Many scholars have carried out the research on the simulation of microscopic remaining oil in order to develop the underground petroleum resources further. Firstly, this paper gave the simulation of microscopic remaining oil definition and elaborated the research situation home and abroad. Secondly, pointed out the existing deficiencies of the current simulation of microscopic remaining oil on four aspects: the great difference between the experimental environment and the real underground environment, the ignorance on the wettability of the rock, the research only completed in the two-dimensional space and the inaccurate representation of the reservoir microscopic pore structure. Thirdly, summarized the studies on the simulation of microscopic remaining oil in our country, and put forward six suggestions on the future development for the simulation of microscopic remaining oil, which are to improve the physical experiment, use the fractal geometry theory and CT technology, combine with the actual geologic features and establish the complete theoretical system. The simulation of microscopic remaining oil is of great significance for the revelation of the microscopic remaining oil distribution, therefore various viewpoints about the simulation of microscopic remaining oil were reviewed in order to provide reference for the future research.

Key words: reservoir characteristics, diagenesis, reservoir of Shan 2 member, northern Zizhou area, Ordos Basin

PAN Shaowei， LIANG Hongjun， LI Liang， LUO Haining, WANG Jiahua. Research progress on simulation of microscopic remaining oil[J].Lithologic Reservoirs, 2013, 25(1): 16-20.

References

［1］贾忠伟，杨清彦,兰玉波,等.水驱油微观物理模拟实验研究［J］.大庆石油地质与开发，2002，21（1）：46-49.
［2］高慧梅，姜汉桥，陈民锋，等.储集层微观参数对油水相对渗透率影响的微观模拟研究［J］.石油勘探与开发，2006，33 （6）：734-737.
［3］陈朝兵，朱玉双，王平平，等. H 地区主力油层驱油效率影响因素［J］.岩性油气藏，2010，22（3）：128-132.
［4］何文祥，杨亿前，马超亚.特低渗透率储层水驱油规律实验研究［J］.岩性油气藏，2010，22（4）：109-111.
［5］车洪昌，任耀宇，刘汉平，等.龙虎泡油田活性水驱油室内实验研究［J］.岩性油气藏，2011，23（2）：128-132.
［6］刘太勋，徐怀民.扇三角洲储层微观剩余油分布模拟试验［J］.中石油大学学报：自然科学版，2011，35（4）：20-26.
［7］张章，朱玉双，陈朝兵，等.合水地区长6 油层微观渗流特征及驱油效率影响因素研究［J］.地学前缘，2012，19（2）：176-182.
［8］张同凯，李永环，赵凤兰.双河油田IV5－11 层系复合驱油体系实验研究［J］.油气地质与采收率，2012，19（1）：62-65.
［9］胡雪涛，李允.随机网络模拟研究微观剩余油分布［J］.石油学报，2000，21（4）：46-51.
［10］孙焕泉，孙国，程会明，等.胜坨油田特高含水期剩余油分布仿真模型［J］.石油勘探与开发，2002，29（3）：66-68.
［11］徐守余，朱连章，王德军.微观剩余油动态演化仿真模型研究［J］.石油学报，2005，26（2）：69-72.
［12］侯健，李振泉，张顺康，等.岩石三维网络模型构建的实验和模拟研究［J］.中国科学（G 辑），2008，38（11）：1563-1575.
［13］王子敏.微观孔隙结构及剩余油仿真研究［D］.东营：中国石油大学，2010.
［14］杨飞.利用分形模拟研究储层微观孔隙结构———以胜坨油田为例［D］.青岛：中国石油大学，2011.
［15］王行仁.先进仿真技术［J］.测控技术，1999，18（6）：5-8.
［16］初良勇，谢新连.基于系统动力学的水上石油物流系统建模与仿真［J］.大连海事大学学报，2006，32（2）：55-58.
［17］刘金梅，周国强，韩国有.考虑损伤的石油井架极限承载性能仿真研究［J］.系统仿真学报，2009，21（6）：1781-1788.
［18］朱小梅，郭志钢.石油价格预测算法的仿真研究［J］.计算机仿真，2011，28（6）：361-364.
［19］ Haugen A，Fern M A，Graue A，et al. Experimental study of foam flow in fractured oil-wet limestone for enhanced oil recovery ［R］.SPE 129763，2012.
［20］ Mehmani A，Tokan-Lawal A，Prodanovic M，et al. The effect of microporosity on transport properties in tight reservoirs ［R］. SPE 144384，2011.
［21］ Silin D，Kneafsey T J，Ajo-Franklin J B，et al. A multimodal 3D imaging study of natural gas flow in tight sands［R］. SPE 146611，2011.
［22］ Khalili A D，Arns C H，Arns J Y. Permeability upscaling for carbonates from the pore-scale using multi-scale Xray-CT images［R］.SPE 152640，2011.
［23］ Blunt M J，Jackson M D，Piri M，et al. Detailed physics，predictive capabilities and macroscopic consequences for pore-network models of multiphase flow ［J］. Advances in water Resources，2002，25：1069-1089.
［24］ Rahmanian M R，Aguilera R，Kantzas A. A new unified diffusionviscous flow model based on pore level studies of tight gas formations［R］. CSUG/SPE 149223，2011.
［25］ Abbad M. Combining the micro grain imager with the effective medium theory for quick assessment of the absolute permeability in carbonates［R］. SPE 160863，2012.
［26］ Al-Dhahli A R S，Geiger S，van Dijke M I J. Accurate modelling of pore-scale film and layer flow for three phase EOR in carbonate rocks with arbitrary wettability［R］. SPE 154019，2012.
［27］ Al-lbadi A， Civan F. Experimental study of gel particles transport through porous media［R］. SPE 153557，2012.
［28］ Skauge A，Ormehaug P A，Gurholt T，et al. 2D visualisation of unstable waterflood and polymer flood for displacement of heavy oil ［R］.SPE 154292，2012.
［29］ Popa A S，Sivakumar K，Cassidy S. Associative data modeling and ant colony optimization approach for waterflood analysis ［R］. SPE154302，2012.
［30］ Simjoo M，Dong Y，Andrianov A，et al. A CT scan study of immiscible foam flow in porous media for EOR［R］. SPE 155633，2012.

Related Articles 15

[1]	YAN Xueying, SANG Qin, JIANG Yuqiang, FANG Rui, ZHOU Yadong, LIU Xue, LI Shun, YUAN Yongliang. Main controlling factors for the high yield of tight oil in the Jurassic Da’anzhai Section in the western area of Gongshanmiao, Sichuan Basin [J]. Lithologic Reservoirs, 2024, 36(6): 98-109.
[2]	Guan Yunwen, Su Siyu, Pu Renhai, Wang Qichao, Yan Sujie, Zhang Zhongpei, Chen Shuo, Liang Dongge. Palaeozoic gas reservoir-forming conditions and main controlling factors in Xunyi area，southern Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(6): 77-88.
[3]	WANG Zixin, LIU Guangdi, YUAN Guangjie, YANG Henglin, FU Li, WANG Yuan, CHEN Gang, ZHANG Heng. Characteristics and reservoir control of source rocks of Triassic Chang 7 member in Qingcheng area，Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(5): 133-144.
[4]	YIN Hu, QU Hongjun, SUN Xiaohan, YANG Bo, ZHANG Leigang, ZHU Rongxing. Characteristics of deep-water deposits and evolution law of Triassic Chang 7 reservoir in southeastern Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(5): 145-155.
[5]	MOU Feisheng, YIN Xiangdong, HU Cong, ZHANG Haifeng, CHEN Shijia, DAI Linfeng, LU Yifan. Distribution characteristics and controlling factors of tight oil of Triassic Chang 7 member in northern Shaanxi area，Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(4): 71-84.
[6]	SHEN Youyi, WANG Kaifeng, TANG Shuheng, ZHANG Songhang, XI Zhaodong, YANG Xiaodong. Geological modeling and“sweet spot”prediction of Permian coal measures shale reservoirs in Yushe-Wuxiang block，Qinshui Basin [J]. Lithologic Reservoirs, 2024, 36(4): 98-108.
[7]	DUAN Yifei, ZHAO Weiwei, YANG Tianxiang, LI Fukang, LI Hui, WANG Jianan, LIU Yuchen. Source-reservoir characteristics and accumulation rules of shale gas of Permian Shanxi Formation in Yan'an area, Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(3): 72-83.
[8]	WANG Hongbo, ZHANG Lei, CAO Qian, ZHANG Jianwu, PAN Xing. Sedimentary model of fluvial fan of Permian He-8 member in Ordos Basin and its exploration significance [J]. Lithologic Reservoirs, 2024, 36(3): 117-126.
[9]	CAO Jiangjun, WANG Xi, WANG Liuwei, LI Cheng, SHI Jian, CHEN Zhaobing. Characteristics and main controlling factors of interbedded shale oil reservoirs of Triassic Chang 7 member in Heshui area，Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(3): 158-171.
[10]	LI Qihui, REN Dazhong, NING Bo, SUN Zhen, LI Tian, WAN Cixuan, YANG Fu, ZHANG Shiming. Micro-pore structure characteristics of coal seams of Jurassic Yan’an Formation in Shenmu area，Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(2): 76-88.
[11]	LEI Tao, MO Songyu, LI Xiaohui, JIANG Nan, ZHU Chaobin, WANG Qiao, QU Xuejiao, WANG Jia. Sandbody superimposition patterns and oil and gas exploration significance of Permian Shanxi Formation in Daniudi gas field，Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(2): 147-159.
[12]	ZHAI Yonghe, HE Dengfa, KAI Baize. Tectonic-depositional environment and prototype basin evolution of Middle-Late Permian in Ordos Basin and adjacent areas [J]. Lithologic Reservoirs, 2024, 36(1): 32-44.
[13]	LONG Shengfang, HOU Yunchao, YANG Chao, GUO Yixuan, ZHANG Jie, ZENG Yali, GAO Nan, LI Shanghong. Sequence stratigraphy and evolution of Triassic Chang 7 to Chang 3 mebers in Qingcheng area，southwestern Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(1): 145-156.
[14]	DU Jiangmin, CUI Zihao, JIA Zhiwei, ZHANG Yi, NIE Wancai, LONG Pengyu, LIU Boyuan. Sedimentary characteristics of Ma 5₅ sub-member of Ordovician Majiagou Formation in Sulige area，Ordos Basin [J]. Lithologic Reservoirs, 2023, 35(5): 37-48.
[15]	LI Shengqian, ZENG Jianhui, LIU Yazhou, LI Miao, JIAO Panpan. Reservoir diagenesis and pore evolution of Paleogene Pinghu Formation in Kongqueting area of Xihu Sag，East China Sea Basin [J]. Lithologic Reservoirs, 2023, 35(5): 49-61.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 10

[1]	HUANG Sijing,HUANG Peipei,WANG Qingdong,LIU Haonian,WU Meng,ZOU Mingliang. The significance of cementation in porosity preservation in deep-buried sandstones[J]. Lithologic Reservoirs, 2007, 19(3): 7 -13 .
[2]	LIU Zhen,CHEN Yanpeng,ZHAO Yang,HAO Qi,XU Xiaoming,CHANG Mai. Distribution and controlling factors of hydrocarbon reservoirs in continental fault basins[J]. Lithologic Reservoirs, 2007, 19(2): 121 -127 .
[3]	DING Chao，GUO Lan，YAN Jifu. Forming conditions of Chang 6 reservoir in Anding area of Zichang Oilfield[J]. Lithologic Reservoirs, 2009, 21(1): 46 -50 .
[4]	LI Yanshan，ZHANG Zhansong，ZHANG Chaomo，CHEN Peng. Application of mercury injection data to Chang 6 reservoir classification in Changqing area[J]. Lithologic Reservoirs, 2009, 21(2): 91 -93 .
[5]	LUO Peng,LI Guorong,SHI Zejin,ZHOU Dazhi,TANG Hongwei,ZHANG Deming. Analysis of sequence stratigraphy and sedimentary facies of M aokou Formation in southeastern Sichuan[J]. Lithologic Reservoirs, 2010, 22(2): 74 -78 .
[6]	ZUO Guoping， TU Xiaolong， XIA Jiufeng. Study on volcanic reservoir types in Subei exploration area[J]. Lithologic Reservoirs, 2012, 24(2): 37 -41 .
[7]	WANG Feiyu. Method to improve producing degree of thermal recovery horizontal wells and its application[J]. Lithologic Reservoirs, 2010, 22(Z1): 100 -103 .
[8]	YUAN Yunfeng，CAI Ye，FAN Zuochun，JIANG Yiyang，QIN Qirong， JIANG Qingping. Fracture characteristics of Carboniferous volcanic reservoirs in Hongche fault belt of Junggar Basin[J]. Lithologic Reservoirs, 2011, 23(1): 47 -51 .
[9]	YUAN Jianying， FU Suotang， CAO Zhenglin， YAN Cunfeng，ZHANG Shuichang， MA Dade. Multi-source hydrocarbon generation and accumulation of plateau multiple petroleum system in Qaidam Basin[J]. Lithologic Reservoirs, 2011, 23(3): 7 -14 .
[10]	SHI Zhanzhan， HE Zhenhua， WEN Xiaotao， TANG Xiangrong. Reservoir detection based on EMD and GHT[J]. Lithologic Reservoirs, 2011, 23(3): 102 -105 .

TRENDMD: