[1]徐風,謝偉彪.數值模擬地層測試測井流體性質解釋模型[J].測井技術,2020,(04):377-380.[doi:10.16489/j.issn.1004-1338.2020.04.012]
 XU Feng,XIE Weibiao.Fluid Property Interpretation Model for Formation Testing Based on Numerical Simulation[J].WELL LOGGING TECHNOLOGY,2020,(04):377-380.[doi:10.16489/j.issn.1004-1338.2020.04.012]
點擊復制

數值模擬地層測試測井流體性質解釋模型()
分享到:

《測井技術》[ISSN:1004-1338/CN:61-1223/TE]

卷:
期數:
2020年04期
頁碼:
377-380
欄目:
解釋評價
出版日期:
2020-08-30

文章信息/Info

Title:
Fluid Property Interpretation Model for Formation Testing Based on Numerical Simulation
文章編號:
1004-1338(2020)04-0377-04
作者:
徐風 謝偉彪
(中國石油冀東油田勘探開發研究院, 河北 唐山 063004)
Author(s):
XU Feng XIE Weibiao
(Exploration and Development Research Institute of Jidong Oilfield Company, CNPC, Hebei, Tangshan 063004, China)
關鍵詞:
測井解釋 數值模擬 模塊式地層動態測試器 流體性質 滲流 侵入深度
Keywords:
log interpretation numerical simulation modular formation dynamics tester fluid properties seepage invasion depth
分類號:
P631.84
DOI:
10.16489/j.issn.1004-1338.2020.04.012
文獻標志碼:
A
摘要:
摘要
Abstract:
Cable formation testing technology can effectively obtain formation pressure, identify oil and gas reservoirs and reservoir fluid properties, determine reservoir physical parameters, and has been more and more applied in oil and gas exploration and development. Based on the theory of percolation mechanics and the method of reservoir numerical simulation, the simulation model of MDT testing is established. The influence of sensitive parameters such as reservoir fluidity and invasion depth on MDT pumping fluid is analyzed. The correlation between oil volume(pump volume at the beginning of oil seeing)and invasion depth is clarified, and the relevant characterization model is determined. The results show that the volume of oil visible(the pump volume at the beginning of oil visible)has a linear relationship with the depth of invasion; when the reservoir fluidity is high, the volume of oil visible is basically constant; when the reservoir fluidity is low, the volume of oil visible has an exponential relationship with the fluidity, and the measured data are consistent with the forward conclusion. According to the relationship between pump volume and water cut, the fluid properties of reservoir can be determined, and the actual operation time can be shortened. It has guiding significance for MDT field operation and technical research, and provides a new idea for reservoir evaluation

參考文獻/References:



[1] 陸大衛, 寧從前. MDT測井技術在我國陸上油氣勘探中的應用 [J]. 中國石油勘探, 2003, 8(1): 58-66.
[2] 陳育勤, 張樹東. MDT測井技術在川東北地區多井解釋中的應用 [J]. 天然氣工業, 2006, 26(7): 52-53.
[3] 匡立春. 電纜地層測試技術在準噶爾盆地油氣勘探中的應用 [J]. 測井技術, 2002, 26(3): 229-232.
[4] 蔣智格, 尹國慶. MDT測井在大斜度井中的應用 [J]. 西南石油大學學報(自然科學版), 2008, 30(4): 60-63.
[5] 王培虎, 郭海敏, 周鳳鳴, 等. MDT壓力測試影響因素分析及應用 [J]. 測井技術, 2006, 30(6): 561-564.
[6] 蔡軍, 孫建孟, 劉坤. 電纜地層測試資料在儲層污染評價中的應用研究 [J]. 測井技術, 2015, 39(2): 236-241.
[7] 楊勇, 王賀林, 岳云福, 等. 運用MDT測井技術準確識別疑難油氣層實例 [J]. 中國石油勘探, 2006, 11(5): 52-57.
[8] YAN J, LIU T, LIU X. Petrophysical evaluation and its application to AVO based on conventional and CMR-MDT logs [J]. Applied Geophysics, 2007, 4(3): 164-172.
[9] 肖忠祥, 徐銳. 基于MDT測試資料的儲層油水界面自動提取方法研究 [J]. 地球物理學進展, 2008, 23(6): 1872-1877.


相似文獻/References:

[1]南澤宇,范曉敏,宋瑛士,等.微電極測井的三維有限元數值模擬[J].測井技術,2012,36(05):475.
 NAN Zeyu,FAN Xiaomin,SONG Yingshi,et al.Simulation of Microelectric Log Based on 3D FEM Method[J].WELL LOGGING TECHNOLOGY,2012,36(04):475.
[2]趙軍龍,李甘,李傳浩,等.鄂爾多斯盆地Z區長81儲層流體快速識別技術研究[J].測井技術,2012,36(05):485.
 ZHAO Junlong,LI Gan,LI Chuanhao,et al.Research on the Fast Identification Technique about Fluid Property of Chang 81 Reservoirs at Z Block in Ordos Basin[J].WELL LOGGING TECHNOLOGY,2012,36(04):485.
[3]關麗.偶極子聲波測井在羅家地區沙三段泥頁巖儲層評價中的應用[J].測井技術,2012,36(05):495.
 GUAN Li.Application of Dipole Acoustic Logging to Shale Reservoir Evaluation of Luojia Area[J].WELL LOGGING TECHNOLOGY,2012,36(04):495.
[4]趙永剛,冉利民,吳非.螺紋井眼測井曲線頻域濾波校正[J].測井技術,2012,36(05):499.
 ZHAO Yonggang,RAN Limin,WU Fei.Frequency Domain Filtering Correction of Log Data from a Corkscrew Borehole[J].WELL LOGGING TECHNOLOGY,2012,36(04):499.
[5]劉洪亮,張予生,劉海濤,等.吐哈油田注水驅油實驗和數值模擬研究[J].測井技術,2012,36(03):230.
 LIU Hongliang,ZHANG Yusheng,LIU Haitao,et al.Numerical Simulation Based on Waterflooded Experiment in TurpanHami Oilfield[J].WELL LOGGING TECHNOLOGY,2012,36(04):230.
[6]李山生,黃質昌,杜蕊,等.WaxmanSmits模型中參數B和QV計算方法研究[J].測井技術,2012,36(03):244.
 LI Shansheng,HUANG Zhichang,DU Rui,et al.Study on Computational Methods of Parameter B and QV in WaxmanSmits Model[J].WELL LOGGING TECHNOLOGY,2012,36(04):244.
[7]陳明江,任興國.含瀝青儲層的測井識別及評價[J].測井技術,2012,36(03):272.
 CHEN Mingjiang,REN Xingguo.Log Identification and Evaluation for Bitumenbearing Reservoir[J].WELL LOGGING TECHNOLOGY,2012,36(04):272.
[8]程玉梅,張小剛,魏國.介電掃描測井技術在長慶油田的應用[J].測井技術,2012,36(03):277.
 CHENG Yumei,ZHANG Xiaogang,WEI Guo.Application of Dielectric Scanner Logging in Changqing Oilfield[J].WELL LOGGING TECHNOLOGY,2012,36(04):277.
[9]嚴慧娟,岳愛忠,趙均,等.地層元素測井儀器結構參數的蒙特卡羅數值模擬[J].測井技術,2012,36(03):282.
 YAN Huijuan,YUE Aizhong,ZHAO Jun,et al.Monte Carlo Numerical Simulation of Structure Parameters in Formation Elements Logging Tool[J].WELL LOGGING TECHNOLOGY,2012,36(04):282.
[10]孫建孟,閆國亮.滲透率模型研究進展[J].測井技術,2012,36(04):329.
 SUN Jianmeng,YAN Guoliang.Review on Absolute Permeability Model[J].WELL LOGGING TECHNOLOGY,2012,36(04):329.
[11]劉軍濤,張鋒,元哲瓏,等.頁巖氣層脈沖中子元素測井蒙特卡羅研究[J].測井技術,2015,39(05):617.[doi:10.16489/j.issn.1004-1338.2015.05.15]
 LIU Juntao,ZHANG Feng,YUAN Zhelong,et al.Monte Carlo Simulation on Pulsed Neutron Elemental Logging for Shale Gas Reservoir[J].WELL LOGGING TECHNOLOGY,2015,39(04):617.[doi:10.16489/j.issn.1004-1338.2015.05.15]
[12]曹志鋒,林有志,王先虎,等.低滲砂礫巖油層的異常侵入特征成因分析[J].測井技術,2018,42(01):60.[doi:10.16489/j.issn.1004-1338.2018.01.011]
 CAO Zhifeng,LIN Youzhi,WANG Xianhu,et al.Cause Analysis and Simulation Study on Abnormal Invasion Characteristics of Low Permeability Glutenite Reservoir[J].WELL LOGGING TECHNOLOGY,2018,42(04):60.[doi:10.16489/j.issn.1004-1338.2018.01.011]

備注/Memo

備注/Memo:
(修改回稿日期: 2019-10-01 本文編輯 王小寧)第一作者: 徐風,男,1980年生,碩士,高級工程師,從事測井方法管理和技術方法研究工作。E-mail:[email protected]
更新日期/Last Update: 2020-08-25
辽宁十一选五玩法