Comprehensive evaluation of shale fracability in Dongying subsidence zone of Shengli oilfield

被引：0

作者：

Sui, Li-Li ^{[1
,2
]}

Yang, Yong-Ming ^{[1
]}

Yang, Wen-Guang ^{[2
]}

Liu, Peng ^{[1
]}

Zhang, Shou-Cheng ^{[2
]}

Han, Yuan-Liang ^{[2
]}

机构：

[1] School of Mechanics and Civil Engineering, China University of Mining and Technology (Beijing), Beijing

[2] Department of Basic Course, North China Institute of Science and Technology, Beijing

来源：

Meitan Xuebao/Journal of the China Coal Society | 2015年 / 40卷 / 07期

关键词：

Fracability; Fuzzy comprehensive evaluation; Shale; Shengli oilfield; Subsidence zone;

D O I：

10.13225/j.cnki.jccs.2014.1190

中图分类号：

学科分类号：

摘要：

To study the shale gas optimal exploitation method in Dongying subsidence area, this paper extracted 13 groups of shale cores with different buried depths (3315.85-3485.07 m) from the upper Es4 to lower Es3 at Dongying subsidence area in Shengli oilfield. Authors measured and analyzed five physical mechanical fracability related parameters, the results of five parameters show that the shale in Dongying subsidence area has a good exploration prospect. According to the longitudinal comparative analysis on different depth shale, four parameters fracability related were determined. A fuzzy comprehensive decision method was used to obtain the quantified fracability evaluation results, which provide an optimal reference for shale gas development. The results show that the shale fracability in investigation area decreases with the increase of burried depth, the shale from depth 3315.85-3366.35 m should be choose over other depth. ©, 2015, China Coal Society. All right reserved.

引用

页码：1588 / 1594

页数：6

共 27 条

[11]

Guo T., Zhang S., Ge H., A new method for evaluating ability of forming fracture network in shale reservoir, Rock and Soil Mechanics, 34, 1, pp. 947-954, (2013)

[12]

Meng Z., Liu C., Ji Y., Geological conditions of coalbed methane and shale gas exploitation and their comparison analysis, Journal of China Coal Society, 38, 5, pp. 947-954, (2013)

[13]

Gale J.F.W., Reed R.M., Holder J., Natural fractures in the Barnett Shale and their important for hydraulic fracture treatment, American Association of Petroleum Geologisists Bulletin, 91, 4, pp. 603-622, (2007)

[14]

Morley A., Strength of Materials, pp. 71-72, (1944)

[15]

Heteny M., Handbook of Experimental Stress Analysis, pp. 23-25, (1966)

[16]

Ramsay J.G., Folding and Fracturing of Rocks, pp. 44-47, (1967)

[17]

Rickman R., Mullen M., Petre E., Et al., A practical use of shale petrophysics for simulation design ptimization: All shale plays are not clones of the Barnett Shale, (2008)

[18]

Goktan R.M., Yilmaz N.G., A new methodology for the analysis of the relationship between rock brittleness index and drag pick cutting, The Journal of the South African Institute of Mining and Metallurgy, 105, pp. 727-733, (2005)

[19]

Sondergeld C.H., Newsham K.E., Comisky J.T., Et al., Petrophysical considerations in evaluating and producing shale gas resources, SPE Hydraulic Fracduring Technology Conference, pp. 29-31, (2010)

[20]

Matthews H.L., Schein G., Malone M., Stimulation of gas shales: They're all the same-right, SPEHydraulic Fracturing Technology Conference, pp. 29-31, (2007)

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