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[1]邹永胜.山地油气管道智能化建设实践与展望[J].油气储运,2021,40(01):1-6.[doi:10.6047/j.issn.1000-8241.2021.01.001]
　ZOU Yongsheng.Intelligent construction of mountainous oil and gas pipeline and its prospect[J].Oil & Gas Storage and Transportation,2021,40(01):1-6.[doi:10.6047/j.issn.1000-8241.2021.01.001]

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山地油气管道智能化建设实践与展望

《油气储运》[ISSN:1000-8241/CN:13-1093/TE] 卷: 40 期数: 2021年01期页码: 1-6 栏目: 出版日期: 2021-01-30

Title:: Intelligent construction of mountainous oil and gas pipeline and its prospect

文章编号:: 1000-8241（2021）01-0001-06

作者:: 邹永胜; 国家管网集团西南管道有限责任公司

Author(s):: ZOU Yongsheng; PipeChina Southwest Pipeline Company

关键词:: 山地油气管道; 智能化; 数字化; 风险管控

Keywords:: mountainous oil and gas pipeline; intelligence; digitalization; risk management and control

分类号:: TE832

DOI:: 10.6047/j.issn.1000-8241.2021.01.001

文献标志码:: A

摘要:: 西南山地油气管道的建设与运行管理存在地质变化复杂、人员活动活跃“两大风险”，同时还有法律法规标准适用性不强、建设及管理成本预算低、山地油气管道技术缺乏“三大问题”，使得管道管理的系统性风险高、安全管控难度大。通过系统分析山地油气管道工程特征及管控难点，提出依托数字化、智能化来解决风险的不可知与不可控、管控体系效能不够高的两大制约因素。结合山地管道公司业务实际情况，提出了以“五纵两横、两大体系”为核心的数字化转型总体思路，形成了山地管道智能化运行从数据感知、数据传输、数据存储及标准化、应用与决策优化到智能逻辑控制的完整技术路线，提高了山地管道风险管控能力及管控效率。系统阐述了山地油气管道智能化建设基础支撑层（两大体系）、具体应用层（五纵）、平台集成层（两横）的建设实践与成果，并提出了未来的发展建议。（图1，表4，参20）

Abstract:: The construction and operation management of mountainous pipelines in Southwest China faces the “two major risks” of complicated geological changes and frequent human activities, and the “three problems” of poor applicability of laws, regulations and standards, low estimation for construction and management costs and lack of mountainous oil and gas pipeline technology, resulting in high systematic risk in pipeline management and great difficulty in its safety management and control. By analyzing the engineering characteristics and the difficulty of management and control of mountainous oil and gas pipeline, the idea was proposed to balance the two constraints of the unknown and uncontrollable risks and the inefficient management and control system relying on the digitalization and intelligence. Moreover, the general idea of digital transformation with “five longitudinal + two transverse pipelines and two systems” was put forward based on the actual business condition of the mountainous pipeline company, forming the complete technical route of intelligent operation of mountainous pipeline from data perception, transmission, storage, standardization, application and decision optimization to intelligent logic control, and further improving the capability and efficiency of risk management and control of mountainous pipeline. Here, the practice and achievements of intelligent construction of mountainous pipeline in basic support layer (two systems), specific application layer (five longitudinal pipelines) and platform integration layer (two transverse pipelines) were illustrated systematically, and the suggestions on future development were also proposed. (1 Figure, 4 Tables, 20 References)

参考文献/References:

[1] 黄维和，郑洪龙，李明菲. 中国油气储运行业发展历程及展望[J]. 油气储运，2019，38（1）：1-11.
HUANG W H, ZHENG H L, LI M F. Development history and prospect of oil & gas storage and transportation industry in China[J]. Oil & Gas Storage and Transportation, 2019, 38(1): 1-11.
[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] 黄维和. 中国油气管道跻身世界先进[N]. 经济日报，2019-09- 20（6）. HUANG W H. China’s oil and gas pipelines have been among the highest in the world[N]. Economic Daily, 2019-09-20(6).
[4] 王瑞莲，姜富川，邢鹏飞. 西南地区天然气管道现状及发展趋势[J]. 天然气技术与经济，2018，12（6）：68-71.
WANG R L, JIANG F C, XING P F. Present situation and development trend of natural gas pipeline in southwest China[J]. Natural Gas Technology and Economy, 2018, 12(6): 68-71.
[5] 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 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.
[6] 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.
[7] 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.
[8] 王振声，陈朋超，王巨洪. 中俄东线天然气管道智能化关键技术创新与思考[J]. 油气储运，2020，39（7）：730-739.
WANG Z S, CHEN P C, WANG J H. Key technological innovations and thinking of pipeline intelligence in China- Russia Eastern Gas Pipeline Project[J]. Oil & Gas Storage and Transportation, 2020, 39(7): 730-739.
[9] 马玉宝，金勇国，杨航，覃新容，梁凡. 中缅天然气管道典型管段风险评估[J]. 化工机械，2019，46（3）：259-263.
MA Y B, JIN Y G, YANG H, QIN X R, LIANG F. Risk assessment of typical section in China-Burma Natural Gas Pipeline[J]. Chemical Engineering & Machinery, 2019, 46(3): 259-263.
[10] 吴岩，宫敬. 智能控制方法在天然气管道中的应用研究[J]. 油气储运，2006，25（8）：29-32.
WU Y, GONG J. Study on application of intelligent control method in natural gas pipelines[J]. Oil & Gas Storage and Transportation, 2006, 25(8): 29-32.
[11] 邹永胜，梁俊，高建章，熊明，吴志锋，李章青，等. 山地油气管道智能化建设架构与方法[J]. 天然气与石油，2020，38（3）： 102-107.
ZOU Y S, LIANG J, GAO J Z, XIONG M, WU Z F, LI Z Q, et al. Smart construction framework and method for oil and gas pipeline in mountainous terrain[J]. Natural Gas and Oil, 2020, 38(3): 102-107.
[12] 吴长春，左丽丽. 关于中国智慧管道发展的认识与思考[J]. 油气储运，2020，39（4）：361-370.
WU C C, ZUO L L. Understanding and thinking on the development of China’s intelligent pipeline[J]. Oil & Gas Storage and Transportation, 2020, 39(4): 361-370.
[13] 税碧垣. 智慧管网总体架构与发展策略思考[J]. 油气储运， 2020，39（11）：1201-1218.
SHUI B Y. Thinking on overall structure and development strategy of intelligent pipeline network[J]. Oil & Gas Storage and Transportation, 2020, 39(11): 1201-1218.
[14] 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.
[15] 徐小波，单新建，屈春燕，张桂芳，马超. PS/CR-InSAR 技术在区域滑坡变形监测中的初步应用[C]. 长沙：中国地球物理学会第二十七届年会，2011：1001.
XU X B, SHAN X J, QU C Y, ZHANG G F, MA C. Initial application of monitoring deformation in landslide area by PS/ CR-InSAR technique[C]. Changsha: The 27th Annual Meeting of The Chinese Geophysical Society, 2011: 1001.
[16] 邹永胜，李双琴，高建章. 天地联合的区域山地管道地质灾害监测预警体系研究[J]. 中国管理信息化，2020，23（15）： 192-196.
ZOU Y S, LI S Q, GAO J Z. Study on the geological hazard monitoring and warning system of regional mountain pipeline[J]. China Management Informationization, 2020, 23(15): 192-196.
[17] 黄维和，沈鑫，郝迎鹏. 中国油气管网与能源互联网发展前景[J]. 北京理工大学学报（社会科学版），2019，21（1）：1-6.
HUANG W H, SHEN X, HAO Y P. Prospects of China’s oil and gas pipeline network and energy internet development[J]. Journal of Beijing Institute of Technology (Social Sciences Edition), 2019, 21(1): 1-6.
[18] 程万洲，王巨洪，王学力，王新. 我国智慧管道建设现状及关键技术探讨[J]. 石油科技论坛，2018，37（3）：34-40.
CHENG W Z, WANG J H, WANG X L, WANG X. Current status and key technology of intelligent pipeline construction in China[J]. Petroleum Science and Technology Forum, 2018, 37(3): 34-40.
[19] 唐伟. 从“数字管道”到“智慧管道”——管道全生命周期管控一体化技术研究与实践[C]. 廊坊：2013 中国国际管道大会， 2013：29-38.
TANG W. From “digital pipelines” to “intelligent pipelines”— integrated management technology for full service life of pipelines[C]. Langfang: China International Pipeline Conference 2013, 2013: 29-38.
[20] SCHMECK H, KARG L. E-energy-paving the way for an internet of energy[J]. it - Information Technology, 2010, 52: 55-57.

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[11]邹永胜.山地油气管道智能化建设实践与展望[J].油气储运,2021,40(01):1.
　ZOU Yongsheng.Intelligent construction of mountainous oil and gas pipeline and itsprospect[J].Oil & Gas Storage and Transportation,2021,40(01):1.

备注/Memo

基金项目：国家管网集团西南管道公司科研项目“中缅原油管道智能化运行方案研究”，201807。
作者简介：邹永胜，男，1962 年生，教授级高级工程师，1998 年毕业于沈阳工学院机械电子工程专业，现主要从事长输油气管道的运营管理工作。地址：四川省成都市高新区升华路6 号，610040。电话：18081185505。Email：zouys@pipechina.com.cn

更新日期/Last Update: 2021-01-30