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        1. [1]朱波,裴建亞,楊云杰,等.大慶長垣油田注產剖面測井技術優選方法研究[J].測井技術,2018,42(04):439-443.[doi:10.16489/j.issn.1004-1338.2018.04.013]
           ZHU Bo,PEI Jianya,YANG Yunjie,et al.Logging Technology Optimization Method of Injection and Production Profile in Changyuan Oilfield, Daqing[J].WELL LOGGING TECHNOLOGY,2018,42(04):439-443.[doi:10.16489/j.issn.1004-1338.2018.04.013]
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          大慶長垣油田注產剖面測井技術優選方法研究()
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          《測井技術》[ISSN:1004-1338/CN:61-1223/TE]

          卷:
          第42卷
          期數:
          2018年04期
          頁碼:
          439-443
          欄目:
          綜合應用
          出版日期:
          2018-09-05

          文章信息/Info

          Title:
          Logging Technology Optimization Method of Injection and Production Profile in Changyuan Oilfield, Daqing
          文章編號:
          1004-1338(2018)04-0439-05
          作者:
          朱波 裴建亞 楊云杰 李婧
          大慶油田有限責任公司測試技術服務分公司, 黑龍江 大慶 163411
          Author(s):
          ZHU Bo PEI Jianya YANG Yunjie LI Jing
          Daqing Oilfield Co. Ltd., Testing Technology Service Branch, Daqing, Heilongjiang 163412, China
          關鍵詞:
          生產測井 監測對象 監測技術 注產剖面 優選模型
          Keywords:
          Keywords: production log monitoring object monitoring technology injection and production profile optimization model
          分類號:
          P631.84
          DOI:
          10.16489/j.issn.1004-1338.2018.04.013
          文獻標志碼:
          A
          摘要:
          隨著油田開發的深入,注入井和產出井的流體分布和流體組成越來越復雜,監測對象與監測技術合理匹配是特高含水后期注產剖面測井面臨的重要問題。分析了影響注產剖面測井的特征參數和常規技術選擇的局限性,通過分析大量歷史注產剖面測井資料,結合現場試驗和測井技術的性能指標,構建了基于注入井和產出井特征的監測技術優選樣本,采用決策樹技術,形成注產剖面測井技術優選模型。在聚驅區塊調整了監測技術應用比例,獲得的監測資料更能反映單井吸水剖面特征,調整和措施見到好的效果。
          Abstract:
          Abstract: With the development of oil field, the fluid distribution and fluid composition of injection and production wells have become more and more complex. To reasonably match the monitoring object with the monitoring technology is an important issue faced by the injection and production profile logging in the late high water cut stage. This paper analyzes in detail the characteristic parameters that affect the production and injection profile logging and the limitations of conventional technology. Moreover, through a large number of historical injection and production profile logging data, as well as field tests and the performance indicators of logging technology, a monitoring technique which is used for preferring samples based on injection and production well features was constructed. Then, by using decision tree technology, an optimization model for logging technology of injection and production well was established. The monitoring technology was applied in the B polymer flooding block, and it is found that the result can better reflect the characteristics of the single well water absorption profile.

          參考文獻/References:

          [1] 吳錫令. 石油開發測井原理 [M]. 北京: 高等教育出版社, 2004. [2] 張繼成, 李倩茹. 水驅油田生產氣油比主控因素及其影響規律研究 [J]. 當代化工, 2016, 45(5): 935-939. [3] 趙永勝, 張善嚴, 朱楠. 喇、薩、杏油田生產氣油比變化規律 [J]. 大慶石油地質與開發, 1998, 17(1): 22 -25. [4] 謝榮華. 國內油田動態監測技術新進展及發展方向 [J]. 測井技術, 2007, 31(2): 103-106. [5] 蒲靜, 秦啟榮. 油氣儲層裂縫預測方法綜述 [J]. 特種油氣藏, 2008, 15(3): 9-12. [6] 張美玲, 藺建華, 曾科, 等. 復雜巖性模式識別中測井項目優化選擇技術 [J]. 科學技術與工程, 2012, 12(35): 9475-9479. [7] 楊萱. 中低滲油藏剩余油飽和度監測技術系列優化與應用 [J]. 地球物理學進展, 2012, 27(1): 312-319. [8] 呂秀梅, 劉繼生. 大慶油田套損檢測技術優選研究 [J]. 測井技術, 2016, 40(6): 755-764. [9] HAN J W, KAMBER M, PEI J. 數據挖掘概念與技術 [M]. 范明, 孟小峰, 譯. 北京: 機械工業出版社, 2016. [10] 李洪奇, 譚鋒奇, 許長福, 等. 基于決策樹方法的礫巖油藏巖性識別 [J]. 測井技術, 2010, 34(1): 16-21.

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          備注/Memo

          備注/Memo:
          第一作者: 朱波,男,1975年生,工程師,從事生產測井解釋評價工作。E-mail:[email protected]
          更新日期/Last Update: 2018-09-05
          11选五开奖结果