[1]萬金彬,李慶華,白松濤.頁巖氣儲層測井評價及進展[J].測井技術,2012,36(05):441-447.
 WAN Jinbin,LI Qinghua,BAI Songtao.Welllogging Evaluation in Shale Gas Reservoir and Its Advances[J].WELL LOGGING TECHNOLOGY,2012,36(05):441-447.
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頁巖氣儲層測井評價及進展()
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《測井技術》[ISSN:1004-1338/CN:61-1223/TE]

卷:
第36卷
期數:
2012年05期
頁碼:
441-447
欄目:
綜述
出版日期:
2012-10-31

文章信息/Info

Title:
Welllogging Evaluation in Shale Gas Reservoir and Its Advances
作者:
萬金彬李慶華白松濤
中國石油集團測井有限公司油氣評價中心, 陜西 西安 710077
Author(s):
WAN Jinbin LI Qinghua BAI Songtao
Oil and Gas Evaluation Center, China Petroleum Logging CO. LTD., Xi’an, Shaanxi 710077, China
關鍵詞:
測井評價 頁巖氣儲層 總有機碳 成熟度指數 裂縫識別 樣本數據庫
Keywords:
log evaluation shale gas reservoir total organic carbon (TOC) maturity index (MI) fracture
分類號:
P631.84
文獻標志碼:
A
摘要:
頁巖基巖孔隙度和滲透率極低,90%以上的頁巖氣儲層需要經過壓裂改造才能生產。根據2008年以來與頁巖氣儲層測井評價有關的大量文獻,綜述了頁巖氣儲層的地質特點,簡介了頁巖氣儲層巖心分析技術進展和適用的測井方法。概括給出了適用條件下的測井總有機碳、成熟度指數、巖石力學參數計算方法和裂縫評價方法。探討了頁巖氣儲層測井評價存在的問題及未來研究可行的發展方向,認為有必要建立信息全面的產氣頁巖典型樣本數據庫。
Abstract:
Shale gas reservoir log evaluation differs from that of conventional gas reservoir because over 90% of shale gas reservoirs need fracturing and the shale bed rock has ultra low porosity and permeability. On the basis of researches on a great number of articles about shale gas reservoir log evaluations since 2008, summarized are geologic characteristics of shale gas reservoir, and introduced are the advances of the reservoir core sample analysis technology and suitable logging methods in shale gas reservoirs. Provided are not only the calculation methods of log total organic carbon (TOC), maturity index (MI) and the parameters of rock mechanical properties, but also the fracture evaluation method. Discussed are existing problems in shale gas reservoir log evaluation, and provided is the feasible developing direction in future research. It is believed that it is necessary to build a full information sample database for shale gas reservoir.

參考文獻/References:

[1]劉洪林,王莉,王紅巖,等. 中國頁巖氣勘探開發適用技術探討[J]. 油氣井測試,2009,18(4):6871.
[2]張金川,汪中余,聶海寬,等. 頁巖氣及其勘探研究意義[J]. 現代地質,2008,22(4):640646.
[3]潘仁芳,伍媛,宋爭. 頁巖氣勘探的地球化學指標及測井分析方法初探[J]. 中國石油勘探,2009(3):69.
[4]董大忠,程克明,王世謙,等. 頁巖氣資源評價方法及其在四川盆地的應用[J]. 天然氣工業,2009,29(5):3339.
[5]蒲泊伶,包書景,王毅,等. 頁巖氣成藏條件分析——以美國頁巖氣盆地為例[J]. 石油地質與工程,2008,22(3):3336.
[6]Russell W Spears, David Dudus, Andrew Foulds, et al. Shale Gas Core Analysis: Strategies for Normalizing Between Laboratories and a Clear Need for Standard Materials[C]∥ SPWLA 52nd Annual Logging Symposium Transactions, A, Colorado: 2011.
[7]Charlers Boyer, John Kieschnick Roberto, SuarezRivera Richard E,et al. 頁巖氣藏的開采[J]. 油田新技術,2006年秋季刊:1831.
[8]Darrell L. Eubanks. Application of Resistivity Borehole Image Analysis in Unconventional Gas Reservoir Field Development [C]∥ SPWLA 49th Annual Logging Symposium Transactions, XX, Edinburgh: 2008.
[9]Dan Buller, Suparman FNU, Shan Kwong. A Novel Approach to Shalegas Evaluation Using a Casedhole Pulsed Neutron Tool[C]∥ SPWLA 51st Annual Logging Symposium Transactions, IIII, Perth: 2010.
[10]Mark A Miller, Creties Jenkins et al. Applying Innovative Production Modeling Techniques to Quantify Fracture Characteristics, Reservoir Properties, and Well Performance in Shale Gas Reservoirs[C]∥SPE Eastern Regional Meeting, 2010(10), Morgantown, West Virginia, USA:1214.
[11]Paul Boonen, Zhipeng Liu, Libai Xu, et al. Application of Triple Neutron Porosity Measurements in Gas Shales and Shaly Sands[C]∥ SPWLA 51st Annual Logging Symposium Transactions, JJJJ, Perth: 2010.
[12]Hamed Soroush, Vamegh Rasouli, Behzad Tokhmechi.A Data Processing Algorithm Proposed for Identification of Breakout Zones in TightforMations: A case Study in Barnett Gas Shale[J].Journal of Petroleum Science and Engineering, 2010(74):154162.
[13]Philippe Marouby, Zoya Heidari, Carlos TorresVerdin. Assessment of Insitu Elastic Properties of HydrocarbonBearing Shale with the Joint Quantitative Interpretation of Sonic, Nuclear and Resistivity Logs[C]∥ SPWLA 52nd Annual Logging Symposium Transactions, O, Colorado: 2011.
[14]Zoya Heidari, Carlos TorresVerdin. Quantitative Method for Estimating Total Organic Carbon and Porosity and for Diagnosing Mineral Constituents from Well Logs in Shalegas Formations[C]∥ SPWLA 52nd Annual Logging Symposium Transactions, Q, Colorado: 2011.
[15]Shabro V, TorresVerdí Cn, Javadpour F. Numerical Simulation of Shalegas Production: from Porescale Modeling of Slipflow, Knudsen Diffusion, and Langmuir Desorption to Reservoir Modeling of Compressible Fluid [C]∥North American Unconventional Gas Conference and Exhibition, The Woodlands, Texas, USA:1416,6,2011.
[16]Sinha S, Braun E.M, Passey Q.R, et al. Advances in Measurement Standards and Flow Properties Measurements for Tight Rocks such as Shales [C]∥PE/EAGE European Unconventional Resources Conference and Exhibition, 2012(3), Vienna, Austria:2022.
[17]Hank Zhao, Natalie B, BradCurtis. Thermal Maturity of the Barnett Shale Determined from Welllog Analysis[J]. AAPG Bulletin, 2007, 91(4):535549.
[18]Naniel F Coope, Terrence H Quinn, Elton Frost Jr, et al. A Rock Model for Shale Gas and Its Application Using Magnetic Resonance and Conventional LWD Logs[C]∥ SPWLA 50th Annual Logging Symposium Transactions, CCCC, Texas: 2009.
[19]Dariusz Strpoc′, Maria Mastalerz, Arndt Schimmelmann, et al.Geochemical Constraints on the Origin and Volume of Gas in the New Albany Shale (DevonianMississippian),eastern Illinois Basin [J].AAPG Bulletin, 2010,94(11):17131740.
[20]Heidari Sureshjani M, Gerami S. A New Model for Modern ProductionDecline Analysis of Gas/Condensate Reservoirs[J].Journal of Canadian Petroleum Technology,2011, 50(7/8): 1423.
[21]Dan Buller, Simon Hughes, Jennifer Market. et al. Petrophysical Evaluation for Enhancing Hydraulic Stimulation in Horizontal Shale Gas Wells [ C] ∥ SPE Annual Technical Conference and Exhibition, Florence, Italy:1922,9,2012.
[22]Rick Rickman, Mike Mullen, Erik Petre. et al. A Practical Use of Shale Petrophysics for Stimulation Design Optimization: All Shale Plays are not Clones of the Barnett Shale[C]∥ SPE Annual Technical Conference and Exhibition, Denver, Colorado, USA:2124,8,2008.
[23]Gatens, J M, Harrison , C W, et al.Insitu Stress Tests and Acoustic Logs Determine Mechanical Propertries and Stress Profiles in the Devonian Shales[J]∥ SPE Formation Evaluation. 1990(9): 248254 .
[24]Doug Patterson, Natasa Mekic, Alexei Bolshakov, et al. Unconventional Reservoir Fracture Evaluation Utilizing Deep Shearwave Imaging[C]∥ SPWLA 52nd Annual Logging Symposium Transactions, M, Colorado: 2011.

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備注/Memo

備注/Memo:
作者簡介: 萬金彬,男,1971年生,高級工程師,從事測井解釋評價及測井解釋方法研究工作。
更新日期/Last Update: 2012-10-20
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