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        3. [1]陸大衛.測井分析、測井解釋、測井評價、測井應用 常用詞辨析[J].測井技術,2018,42(06):607-611.[doi:10.16489/j.issn.1004-1338.2018.06.001]
           LU Dawei.Differentiate and Analysis of Log Analysis, Log Interpretation, Log Evaluation and Log Application[J].WELL LOGGING TECHNOLOGY,2018,42(06):607-611.[doi:10.16489/j.issn.1004-1338.2018.06.001]
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          測井分析、測井解釋、測井評價、測井應用 常用詞辨析()
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          《測井技術》[ISSN:1004-1338/CN:61-1223/TE]

          卷:
          第42卷
          期數:
          2018年06期
          頁碼:
          607-611
          欄目:
          綜述
          出版日期:
          2018-12-31

          文章信息/Info

          Title:
          Differentiate and Analysis of Log Analysis, Log Interpretation, Log Evaluation and Log Application
          文章編號:
          1004-1338(2018)06-0607-05
          作者:
          陸大衛
          中國石油天然氣集團公司咨詢中心,北京100006
          Author(s):
          LU Dawei
          China National Petroleum Corporation Consulting Center, Beijing 100006, China
          關鍵詞:
          測井分析測井解釋測井評價測井應用專業常用詞辨析
          Keywords:
          log analysis log interpretation log evaluation log application professional commonly used words discrimination
          分類號:
          P63184
          DOI:
          10.16489/j.issn.1004-1338.2018.06.001
          文獻標志碼:
          A
          摘要:
          專業常用詞的模糊化會導致技術交流中信息理解不對等、技術文獻分類不恰當、信息檢索效率低、技術成果集成和共享困難等問題。由于測井行業發展快速,對測井分析、測井解釋、測井評價和測井應用等4個常用詞在認識上存在差異,影響測井技術的交流與傳播。針對該問題,調研了不同組織機構中的測井從業人員對4個專業常用詞的認識,組織多家單位聯合開展國內外測井文獻檢索,對4個測井專業常用詞進行溯源,從語言學和認識論對其進行辨析和再認識。通過辨析和討論,初步給出對4個常用詞的簡明認識,作為測井行業人士開展討論、達成共識的基礎。
          Abstract:
          The fuzzification of professional common words will lead to problems such as unequal information understanding in technical communication, inappropriate classification of technical literature, inefficient information retrieval, and difficulty in integrating and sharing technical achievements. The logging industry is developing rapidly, but there are differences in understanding the four commonly used words such as log analysis, log interpretation, log evaluation and log application, which affects the communication and dissemination of logging technology. In order to solve this problem, this paper selects the logging professionals in different organizations and investigates their understanding of the four commonly used words. In addition, a number of units have been organized to jointly search the logging literature at home and abroad, in order to find the roots of the four commonly used words. Based on two aspects of linguistics and epistemology, these four professional common words were analyzed and re-recognized. Through discrimination and discussion, this paper gives a preliminary understanding of these four commonly used words, hoping that this can be used as a basis for discussion and consensus building by logging professionals.

          參考文獻/References:

          [1]Schlumberger. Schlumberger log interpretation principles application [M]. New York: Schlumberger, 1989.
          [2]陸大衛. 創新驅動跨越發展: 中國測井技術發展對策研究 [J]. 測井技術, 2011, 35(2): 101-103.
          [3]ROMANES J. Geological aspects of oilfield development [C]∥1st World Petroleum Congress, 1933.
          [4]洛克 G A. 天然伽馬能譜測井 [J]. 國外放射性地質, 1973(5): 50-56.
          [5]SCHLUMBERGER C, SCHLUMBERGER M, LEONARDON E G, et al. Electrical coring: a method of determining bottom-hole data by electrical measurements [R]. SPE 934237-G, 1932.
          [6]JOHN E. Factors influencing electrical resistivity of drilling fluids [R]. SPE 942204, 1941.
          [7]按連續速度測井數據確定產油層的孔隙度和定性評價 [J]. 林之峯, 譯. 地球物理勘探, 1957(3): 47-48.
          [8]THOMEER J H. The application of Schlumberger electrical logging in oilfield operations [C]∥2nd World Petroleum Congress, 1937.
          [9]莫里斯·馬爾登. 應用電測井和放射性測井的若干結論 [J]. 林之峯, 譯. 地球物理勘探, 1957(3): 41-45.
          [10]雍世和, 洪有密. 測井資料綜合解釋與數字處理 [M]. 北京: 石油工業出版社, 1982.
          [11]雍世和, 張超謨. 測井數據處理與綜合解釋 [M]. 東營: 石油大學出版社, 1996.
          [12]《英漢石油技術詞典》編寫組. 英漢石油技術詞典 [M]. 北京: 石油工業出版社, 1989.
          [13]李能根, 陸大衛, 劉鳳亮, 等. 實用英漢石油測井技術詞匯 [M]. 北京: 地質出版社, 1999.
          [14]石油測井專業術語SY/T6139—1996 [S]. 中華人民共和國石油天然氣行業標準, 1996.
          [15]SPWLA. Glossary of terms & expressions used in well logging [Z]. 1974.
          [16]TITTMAN J. Geophysical well logging: excerpted from method of experimental physics, volume 24, geophysics [M]. Salt Lake City: Academic Press Inc, 1986.
          [17]陸鳳根. 發展測井技術的幾個理論和實踐問題 [J]. 測井技術, 1988, 12(1): 14-19, 81.

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          備注/Memo

          備注/Memo:
          第一作者:陸大衛,男,1944年生,教授級高級工程師,從事測井技術研究和管理工作。E-mail:[email protected]
          更新日期/Last Update: 2018-12-31
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