[1]税碧垣,薛鲁宁,杨玉锋,等.从提升感知能力角度探讨管道地下空间敷设的可行性[J].油气储运,2021,40(12):1321-1329.[doi:10.6047/j.issn.1000-8241.2021.12.001]
 SHUI Biyuan,XUE Luning,YANG Yufeng,et al.Discussion on feasibility of pipeline laying in underground space from the perspective of improving sensing ability[J].Oil & Gas Storage and Transportation,2021,40(12):1321-1329.[doi:10.6047/j.issn.1000-8241.2021.12.001]
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从提升感知能力角度探讨管道地下空间敷设的可行性

参考文献/References:

[1] 佚名. 管道线路工程[DB/OL]. (2010-11-18)[2021-08-18]. https://wenku.baidu.com/view/41d336ccda38376baf1faeb1.html. Anonymity. Pipeline route engineering[DB/OL]. (2010-11-18)[2021- 08-18]. https://wenku.baidu.com/view/41d336ccda38376baf1faeb1.html.
[2] 何亮. 市政深埋污水管道敷设施工方案比选[J]. 工程建设与设 计,2021(2):67-68. HE L. Comparison and selection of construction schemes for municipal deep buried sewage pipeline laying[J]. Construction & Design for Project, 2021(2): 67-68.
[3] 赵福兵. 论市政道路的雨污水管网施工关键技术[J]. 四川水泥, 2021(4):110-111. ZHAO F B. Discussion on the key technologies of rainwater and sewage pipe network construction of municipal roads[J]. Sichuan Cement, 2021(4): 110-111.
[4] 韦健,果志强. 浅谈国内外综合管廊的建设[J]. 江西化工,2016(5):15-19. WEI J, GUO Z Q. On the construction of comprehensive pipe gallery at home and abroad[J]. Jiangxi Chemical Industry, 2016(5): 15-19.
[5] 油新华. 我国城市综合管廊建设发展现状与未来发展趋势[J]. 隧道建设(中英文),2018,38(10):1603-1611. YOU X H. State-of-art and prospectives of urban utility tunnels in China[J]. Tunnel Construction, 2018, 38(10): 1603-1611.
[6] 佚名. 中国城市地下综合管廊分类、政策、发展阶段、建设长度 及发展建议分析[EB/OL]. (2021-02-01)[2021-08-18]. https:// www.chyxx.com/industry/202102/928325.html. Anonymity. Analysis on classification, policy, development stage, construction length and development suggestions of urban underground comprehensive pipe corridors in China[EB/ OL]. (2021-02-01)[2021-08-18]. https://www.chyxx.com/ industry/202102/928325.html.
[7] 左川,李澜. 综合管廊天然气管道设计[J]. 煤气与热力,2021, 41(2):38-41. ZUO C, LI L. Design of natural gas pipeline in utility tunnel[J]. Gas & Heat, 2021, 41(2): 38-41.
[8] 常银宗,吴雪,查颖. 地下综合管廊通风设计中若干问题探讨[J]. 中国给水排水,2019,35(22):71-75. CHANG Y Z, WU X, ZHA Y. Discussion on some problems in ventilation design of underground utility tunnel[J]. China Water & Wastewater, 2019, 35(22): 71-75.
[9] 陈元洪,董宁. 城市燃气管道入综合管廊问题及对策研究[J]. 煤 气与热力,2016,36(10):15-18. CHEN Y H, DONG N. Problems and countermeasure study for laying gas pipeline in utility tunnel[J]. Gas & Heat, 2016, 36(10): 15-18.
[10] 相坤,李磊,李宏文,顾广悦. 综合管廊防火研究[J]. 安全, 2020,41(2):9-16,26. XIANG K, LI L, LI H W, GU G Y. Study on fire prevention of the utility tunnel[J]. Safety, 2020, 41(2): 9-16, 26.
[11] 刘明刚. 城市地下综合管廊防水设计与施工[J]. 低碳世界, 2017(10):270-271. LIU M G. Waterproof design and construction of urban underground comprehensive pipe gallery[J]. Low Carbon World, 2017(10): 270-271.
[12] 佚名. 综合管廊[DB/OL]. (2016-08-19)[2021-08-18]. https:// wenku.baidu.com/view/fc33a9004693daef5ff73d89.html. Anonymity. Utility tunnel[DB/OL]. (2016-08-19)[2021-08-18]. https://wenku.baidu.com/view/fc33a9004693daef5ff73d89.html.
[13] 马云宾,董红军,孙万磊,张洪,王春清. 新冠肺炎疫情下管道 线路智能感知技术的思考与探索[J]. 油气储运,2020,39(4): 389-394,424. MA Y B, DONG H J, SUN W L, ZHANG H, WANG C Q. Thinking and exploration of pipeline intelligent perception technology during the epidemic of COVID-19[J]. Oil & Gas Storage and Transportation, 2020, 39(4): 389-394, 424.
[14] XU Y, HUANG Y M, LI J D, MA G W. A risk-based optimal pressure relief opening design for gas explosions in underground utility tunnels[J].Tunnelling and Underground Space Technology, 2021, 116: 104091.
[15] GENGER T K, LUO Y S, HAMMAD A. Multi-criteria spatial analysis for location selection of multi-purpose utility tunnels[J]. Tunnelling and Underground Space Technology, 2021, 115: 104073.
[16] W. Kent Muhlbauer. 管道风险管理手册[M]. 杨嘉瑜,张德彦, 李钦华,吴俊,译. 第2 版. 北京:中国石化出版社,2005:3-11. MUHLBAUER W K. Pipeline risk management manual[M]. YANG J Y, ZHANG D Y, LI Q H, WU J, translated. 2nd ed. Beijing: China Petrochemical Press, 2005: 3-11.
[17] 佚名. 天然气管道入综合管廊分析[DB/OL].(2020-12-25) [2021-08-18]. https://wenku.baidu.com/view/67da271cf724ccbff 121dd36a32d7375a517c62d.html. Anonymity. Analysis of natural gas pipeline entering comprehensive pipe gal lery[DB/OL]. (2020-12-25) [2021-08-18]. https://wenku.baidu.com/view/67da271cf7 24ccbff121dd36a32d7375a517c62d.html.
[18] 施奥博. 覃伟中到兰州站出站三公里隐患治理工程现场调研 [EB/OL].(2018-09-20)[2021-08-18]. https://www.sohu.com/ a/254953793_747347. SHI A B. On site investigation of hidden danger treatment project three kilometers from Qin Weizhong to Lanzhou station[EB/OL]. (2018-09-20)[2021-08-18]. https://www. sohu.com/a/254953793_747347.
[19] 佚名. 管涵单价分析及计算[DB/OL].(2018-04-13)[2021-08- 18]. https://wenku.baidu.com/view/2c89716d58eef8c75fbfc77da2 6925c52dc5910d.html. Anonymity. Unit price analysis and calculation of pipe culvert[DB/ OL]. (2018-04-13)[2021-08-18]. https://wenku.baidu.com/view/2 c89716d58eef8c75fbfc77da26925c52dc5910d.html.
[20] 佚名. 城市综合管廊投资估算指标[DB/OL].(2020-07-26) [2021-08-18]. https://wenku.baidu.com/view/44ca6476ce175527 0722192e453610661ed95af9.html. Anonymity. Investment estimation index of urban comprehensive pipe gallery[DB/OL]. (2020-07-26)[2021-08- 18]. https://wenku.baidu.com/view/44ca6476ce1755270722192e4 53610661ed95af9.html.
[21] European Gas Pipeline Incident Data Group (EGIG). Gas pipeline incidents: 9th report of the European Gas Pipeline Incident Data Group (period 1970-2013): EGIG 14.R.0403[R]. Groningen: EGIG, 2015:20.
[22] 齐先志,杨静,王晓霖,谢成,曹加园,席罡. 国外管道失效数据 库简介及参考[J]. 当代化工,2016,45(4):853-855,859. QI X Z, YANG J, WANG X L, XIE C, CAO J Y, XI G. Introduction of foreign pipeline failure databases and guidelines for us[J]. Contemporary Chemical Industry, 2016, 45(4): 853-855, 859.

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备注/Memo

收稿日期:2021-04-19;修回日期:2021-11-08;编辑:刘朝阳
基金项目:国家管网集团重点课题“油气管道线路及站场感知技术研究”,WZXGL202106。
作者简介:税碧垣,男,1973 年生,高级工程师,1997 年硕士毕业于西南石油学院应用化学专业,现主要从事智慧管网建设方向研究。地址:河北省廊坊市广阳区金光道51 号,065000。电话:0316-2073509。Email:shuiby@pipechina.com.cn

更新日期/Last Update: 2021-12-25