[1]蒲明 李育天 孙骥姝.中俄东线天然气管道工程前期工作关键点及创新成果[J].油气储运,2020,39(04):371-378.[doi:10.6047/j.issn.1000-8241.2020.04.002]
 PU Ming,LI Yutian,SUN Jishu.The key to the preliminary work of China–Russia Eastern Gas Pipeline Project and innovative achievements[J].Oil & Gas Storage and Transportation,2020,39(04):371-378.[doi:10.6047/j.issn.1000-8241.2020.04.002]
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中俄东线天然气管道工程前期工作关键点及创新成果

参考文献/References:

[1] 汪巍. 中俄油气工程合作特点及趋势[J]. 国际工程与劳务, 2020(2):45-46. WANG W. Characteristics and trend of oil and gas engineering cooperation between China and Russia[J]. International Project Contracting & Labour Service,2020(2):45-46.
[2] 姜昌亮. 中俄东线天然气管道工程管理与技术创新[J]. 油气储 运,2020,39(2):121-129. JIANG C L. Management and technological innovation in China–Russia Eastern Gas Pipeline Project[J]. Oil & Gas Storage and Transportation,2020,39(2):121-129.
[3] 中国石油管道公司. 气脉:中俄东线天然气管道工程北段建设 纪实[M]. 北京:中国工人出版社,2019:3. PetroChina Pipeline Company. Gas artery:the record for northern section construction of China–Russia Eastern Gas Pipeline[M]. Beijing:China Workers Publishing House,2019:3.
[4] 程玉峰. 保障中俄东线天然气管道长期安全运行的若干技术思 考[J]. 油气储运,2020,39(1):1-8. CHENG Y F. Technical insights into the long-term integrity and sustainability of China–Russia Eastern Gas Pipeline[J]. Oil & Gas Storage and Transportation,2020,39(1):1-8.
[5] 丁彬. 中俄东线天然气资源对东北能源供给侧结构改革的影 响[J]. 中国商论,2019(14):100-101. DING B. The influence of China–Russia Eastern Gas Pipeline on the energy supply side in Northeast China[J]. China Journal of Commerce,2019(14):100-101.
[6] 潘文汇,王超,车晓波. 中俄天然气管道东线对目标市场的影响 分析[J]. 国际石油经济,2019,27(6):47-55. PAN W H,WANG C,CHE X B. Impacts on the target market of the eastern line of Sino-Russian Natural Gas Pipeline[J]. International Petroleum Economics,2019,27(6):47-55.
[7] 王保群,蒲明,李强,姜勇,李育天. 进口油气管道技术谈判要点 透析——基于《中俄东线管道供气购销协议》前期技术谈判经 验[J]. 国际石油经济,2017,25(2):85-89,95. WANG B Q,PU M,LI Q, JIANG Y,LI Y T. Key points of technical negotiation on oil and gas import pipelines—Based on the experience of early technical negotiation on“Purchase and Sale Agreement of Russia–China Eastern Route Pipeline”[J]. International Petroleum Economics,2017, 25(2):85-89,95.
[8] 张小强,侯宇,蒋庆梅,冯伟. 中俄东线直径1 422 mm、X80 钢级 冷弯管设计参数的确定[J]. 油气储运,2020,39(2):222-225. ZHANG X Q,HOU Y,JIANG Q M,FENG W. Determination of the design parameters of X80 cold bending pipe with 1 422 mm diameter in China–Russia Eastern Gas Pipeline[J]. Oil & Gas Storage and Transportation,2020,39(2):222-225.
[9] 张振永. 中俄东线X80 钢级φ1 422 mm 管道工程设计关键技[1] 汪巍. 中俄油气工程合作特点及趋势[J]. 国际工程与劳务, 2020(2):45-46. WANG W. Characteristics and trend of oil and gas engineering cooperation between China and Russia[J]. International Project Contracting & Labour Service,2020(2):45-46.
[2] 姜昌亮. 中俄东线天然气管道工程管理与技术创新[J]. 油气储 运,2020,39(2):121-129. JIANG C L. Management and technological innovation in China–Russia Eastern Gas Pipeline Project[J]. Oil & Gas Storage and Transportation,2020,39(2):121-129.
[3] 中国石油管道公司. 气脉:中俄东线天然气管道工程北段建设 纪实[M]. 北京:中国工人出版社,2019:3. PetroChina Pipeline Company. Gas artery:the record for northern section construction of China–Russia Eastern Gas Pipeline[M]. Beijing:China Workers Publishing House,2019:3.
[4] 程玉峰. 保障中俄东线天然气管道长期安全运行的若干技术思 考[J]. 油气储运,2020,39(1):1-8. CHENG Y F. Technical insights into the long-term integrity and sustainability of China–Russia Eastern Gas Pipeline[J]. Oil & Gas Storage and Transportation,2020,39(1):1-8.
[5] 丁彬. 中俄东线天然气资源对东北能源供给侧结构改革的影 响[J]. 中国商论,2019(14):100-101. DING B. The influence of China–Russia Eastern Gas Pipeline on the energy supply side in Northeast China[J]. China Journal of Commerce,2019(14):100-101.
[6] 潘文汇,王超,车晓波. 中俄天然气管道东线对目标市场的影响 分析[J]. 国际石油经济,2019,27(6):47-55. PAN W H,WANG C,CHE X B. Impacts on the target market of the eastern line of Sino-Russian Natural Gas Pipeline[J]. International Petroleum Economics,2019,27(6):47-55.
[7] 王保群,蒲明,李强,姜勇,李育天. 进口油气管道技术谈判要点 透析——基于《中俄东线管道供气购销协议》前期技术谈判经 验[J]. 国际石油经济,2017,25(2):85-89,95. WANG B Q,PU M,LI Q, JIANG Y,LI Y T. Key points of technical negotiation on oil and gas import pipelines—Based on the experience of early technical negotiation on“Purchase and Sale Agreement of Russia–China Eastern Route Pipeline”[J]. International Petroleum Economics,2017, 25(2):85-89,95.
[8] 张小强,侯宇,蒋庆梅,冯伟. 中俄东线直径1 422 mm、X80 钢级 冷弯管设计参数的确定[J]. 油气储运,2020,39(2):222-225. ZHANG X Q,HOU Y,JIANG Q M,FENG W. Determination of the design parameters of X80 cold bending pipe with 1 422 mm diameter in China–Russia Eastern Gas Pipeline[J]. Oil & Gas Storage and Transportation,2020,39(2):222-225.
[9] 张振永. 中俄东线X80 钢级φ1 422 mm 管道工程设计关键技术应用[J]. 焊管,2019,41(7):64-71. ZHANG Z Y. Application of key technologies in design of X80 Φ1 422 mm pipeline engineering of China–Russia East Natural Gas Pipeline Project[J]. Welded Pipe and Tube, 2019,41(7):64-71.
[10] 张振永,周亚薇,张金源. 现行设计系数对中俄东线OD 1 422 mm 管道的适用性[J]. 油气储运,2017,36(3):319-324. ZHANG Z Y,ZHOU Y W,ZHANG J Y. Applicability of current design coefficient to OD 1 422 mm pipelines in China– Russia East Natural Gas Pipeline[J]. Oil & Gas Storage and Transportation,2017,36(3):319-324.
[11] 张振永,张文伟,周亚薇,薄国公,邹宇. 中俄东线OD 1 422 mm 埋地管道的断裂控制设计[J]. 油气储运,2017,36(9):1059-1064. ZHANG Z Y,ZHANG W W,ZHOU Y W,BO G G,ZOU Y. The fracture control design of the OD 1 422 mm buried pipeline in China–Russia Eastern Gas Pipeline[J]. Oil & Gas Storage and Transportation,2017,36(9):1059-1064.
[12] 张宏,吴锴,刘啸奔,杨悦,隋永莉,张振永. 直径1 422 mm X80 管道环焊接头应变能力数值模拟方法[J]. 油气储运, 2020,39(2):162-168. ZHANG H,WU K,LIU X B,YANG Y,SUI Y L,ZHANG Z Y. Numerical simulation method for strain capacity of girth welding joint on X80 pipeline with 1 422 mm diameter[J]. Oil & Gas Storage and Transportation,2020,39(2):162-168.
[13] 赵新伟,池强,张伟卫,杨峰平,许春江. 管径1 422 mm 的 X80 焊管断裂韧性指标[J]. 油气储运,2017,36(1):37-43. ZHAO X W,CHI Q,ZHANG W W,YANG F P,XU C J. Fracture toughness indicators of OD 1 422 mm X80 welded steel pipe[J]. Oil & Gas Storage and Transportation,2017,36(1):37-43.
[14] 董绍华,张余,曹兴. 管道全尺寸气体爆破试验完整性评估技 术[J]. 油气储运,2014,33(3):238-241. DONG S H,ZHANG Y,CAO X. Integrity assessment technology for pipeline full-size gas burst test[J]. Oil & Gas Storage and Transportation,2014,33(3):238-241.
[15] 帅义,帅健,狄彦. 含凹陷管道全尺寸爆破试验[J]. 油气储运, 2017,36(1):44-48. SHUAI Y,SHUAI J,DI Y. Full-scale burst experiments on dented pipeline[J]. Oil & Gas Storage and Transportation, 2017,36(1):44-48.
[16] 宫敬,徐波,张微波. 中俄东线智能化工艺运行基础与实现的 思考[J]. 油气储运,2020,39(2):130-139. GONG J,XU B,ZHANG W B. Thinking on the basis and realization of intelligent process operation of China– Russia Eastern Gas Pipeline[J]. Oil & Gas Storage and Transportation,2020,39(2):130-139.
[17] 王晓香. 国内外超大输量天然气管道建设综述[J]. 焊管,2019, 41(7):1-9. WANG X X. Overview of the construction of super-large transportation capacity natural gas pipelines at home and abroad[J]. Welded Pipe and Tube,2019,41(7):1-9.
[18] 罗雪峰. 中俄东线天然气管道工程试验段二期智能工地建设 探索[J]. 石油工程建设,2018,44(增刊1):214-218. LUO X F. Intelligent work site construction at second phase of test section of Sino-Russia East Gas Pipeline[J]. Petroleum Engineering Construction,2018,44(S1):214-218.
[19] 颜庆龙,叶国清,华晶,纪海涛. 智能工地在中俄东线天然气管 道工程的实践[J]. 智能建筑,2018(9):65-68. YAN Q L,YE G Q,HUA J, JI H T. Practice of the smart construction site for the Sino-Russia Gas Pipeline Project(East Route)[J]. Intelligent Building,2018(9):65-68.
[20] 蔡永军,蒋红艳,王继方,王潇潇,李莉,陈国群,等. 智慧管道总 体架构设计及关键技术[J]. 油气储运,2019,38(2):121-129. CAI Y J,JIANG H Y,WANG J F,WANG X X,LI L,CHEN G Q,et al. The overall architecture design and key construction technologies of intelligent pipelines[J]. Oil & Gas Storage and Transportation,2019,38(2):121-129.
[21] 税碧垣,张栋,李莉,薛鲁宁,陈国群. 智慧管网主要特征与建 设构想[J/OL]. 油气储运:1-8[2020-02-13]. http://kns.cnki. net/kcms/detail/13.1093.TE.20200102.1521.006.html. SHUI B Y,ZHANG D,LI L,XUE L N,CHEN G Q. Main characteristics and construction conception of intelligent pipeline network[J/OL]. Oil & Gas Storage and Transportation: 1-8[2020-02-13]. http://kns.cnki.net/kcms/detail/13.1093. TE.20200102.1521.006.html.
[22] 聂中文,黄晶,于永志,王永吉,单超,冯骋,等. 智慧管网的建 设进展及存在的问题[J]. 油气储运,2020,39(1):16-24. NIE Z W,HUANG J,YU Y Z,WANG Y J,SHAN C, FENG C,et al. Construction progress and existing problems of intelligent pipeline network[J]. Oil & Gas Storage and Transportation,2020,39(1):16-24.
[23] 熊明,古丽,吴志锋,邓勇,李双琴,邹妍,等. 在役油气管道数 字孪生体的构建及应用[J]. 油气储运,2019,38(5):503-509. XIONG M,GU L,WU Z F,DENG Y,LI S Q,ZOU Y, et al. Construction and application of digital twin in the in-service oil and gas pipeline[J]. Oil & Gas Storage and Transportation,2019,38(5):503-509.
[24] 李柏松,王学力,徐波,孙巍,王新,赵云峰. 国内外油气管 道运行管理现状与智能化趋势[J]. 油气储运,2019,38(3): 241-250. LI B S,WANG X L,XU B,SUN W,WANG X,ZHAO Y F. Operation and management status and intelligentization trend of global oil and gas pipelines[J]. Oil & Gas Storage and Transportation,2019,38(3):241-250.
[25] 王巨洪,张世斌,王新,李荣光,王婷. 中俄东线智能管道数据可视化探索与实践[J]. 油气储运,2020,39(2):169-175. WANG J H,ZHANG S B,WANG X,LI R G,WANG T. Exploration and practice of data visualization for intelligent pipeline in China–Russia Eastern Gas Pipeline[J]. Oil & Gas Storage and Transportation,2020,39(2):169-175.

相似文献/References:

[1]蒲明 李育天 孙骥姝.中俄两国深化合作的成功典范——中俄东线天然气管道工程[J].油气储运,2020,39(01):1.
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[2]张振永,周亚薇,张金源.现行设计系数对中俄东线OD 1 422 mm 管道的适用性[J].油气储运,2017,36(3):319.[doi:10.6047/j.issn.1000-8241.2017.03.014]
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备注/Memo

(收稿日期:2020-03-15;修回日期:2020-03-19;编辑:刘朝阳) 作者简介:蒲明,女,1975 年生,高级工程师,2001 年硕士毕业于西南石油大学油气储运工程专业,现主要从事输气管道工程的规划及前期设计研究工作。地址:北京市海淀区志新西路3 号,100083。电话:18500362333。Email:puming@petrochina.com.cn

更新日期/Last Update: 2020-04-25