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[1]沈光霁,李青春,庞笑,等.油气管道通信光缆的定位检测方法[J].油气储运,2015,34(7):764-767.[doi:10.6047/j.issn.1000-8241.2015.07.017]
　SHEN Guangji,LI Qingchun,PANG Xiao,et al.Location test method of communication optical fiber cable of oil and gas pipeline[J].Oil & Gas Storage and Transportation,2015,34(7):764-767.[doi:10.6047/j.issn.1000-8241.2015.07.017]

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油气管道通信光缆的定位检测方法

《油气储运》[ISSN:1000-8241/CN:13-1093/TE] 卷: 34 期数: 2015年第7期页码: 764-767 栏目: 出版日期: 2015-07-25

Title:: Location test method of communication optical fiber cable of oil and gas pipeline

作者:: 沈光霁¹; 李青春²; 庞笑¹; 张宏伟¹; 姜姝¹; 詹治国³; 1. 中国石油管道公司沈阳龙昌管道检测中心, 辽宁沈阳 110031;
2. 中国石油管道公司秦皇岛输油气分公司, 河北秦皇岛 066000;
3. 北京中电飞华通信股份有限公司, 北京 100039

Author(s):: SHEN Guangji¹; LI Qingchun²; PANG Xiao¹; ZHANG Hongwei¹; JIANG Shu¹; ZHAN Zhiguo³; 1. Shenyang Longchang Pipeline Inspection Center, PetroChina Pipeline Company, Shenyang, Liaoning, 110031;
2. Qinhuangdao Oil & Gas Transmission Sub-company, Petrochina Pipeline Company, Qinhuangdao, Hebei, 066000;
3. Beijing Fibrlink Communications Co. Ltd., Beijing, 100039

关键词:: :管道; 光缆; 定位; 地面测试; 开挖检验

Keywords:: pipeline; optical cable; location; ground test; excavation test

分类号:: TE988

DOI:: 10.6047/j.issn.1000-8241.2015.07.017

摘要:: 油气管道通信光缆是现代化管道完整性系统的重要组成部分, 其安全性至关重要, 但由于本身较弱的抗冲击性能, 一旦现场施工不规范, 就极易发生光缆破坏或断缆等事故。通过借鉴管道外检测的成功经验, 提出一种管道通信光缆的定位测试方法:利用适当的地面检测技术, 结合开挖检验的方式, 对管道通信光缆进行有效、准确定位, 全面了解光缆走向及埋深等具体情况, 详细排查测试光缆存在的各种不安全因素, 并提出相应建议。现场开挖检验结果表明:该测试方法的光缆水平定位误差小于1%、垂直定位误差小于10%, 满足光缆定位及后期整

Abstract:: Communication optical fiber cable of oil and gas pipeline is an integral part of modern pipeline integrity system. Its safety is critical. However, due to weak impact resistance, it is prone to be damaged or broken if the site construction is not conducted as specified. Based on the successful practices of pipeline external inspection, a location test method of pipeline communication optical cable is developed. It can effectively and accurately locate the pipeline communication optical cable by using appropriate ground testing technology and appropriate excavation inspection way. With this method, the direction and depth of optical fiber cable are comprehensively understood, and various unsafe factors for the cable are thoroughly investigated. Then, corresponding suggestions are put forward. The results have a realistic signficance on protection and rectification of communication optical cable along the pipeline. The site excavation test results show that this method realizes a horizontal location error less than 1% and vertical location error less than 10%, which satisfy the actual demand of optical cable locating and late rectification.

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相似文献/References:

[1]吴琋瑛.光缆与油气管道同沟敷设应用实践[J].油气储运,2011,30(07):547.[doi:10.6047/j.issn.1000-8241.2011.07.021]
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[2]李珍,洪启林.光缆套管与主管道同孔回拖穿越[J].油气储运,2009,28(5):71.[doi:10.6047/j.issn.1000-8241.2009.05.022]
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[3]何兆洋,尚义,何丽萍,等.漠大原油管道SCADA通讯中断原因及应对措施[J].油气储运,2014,33(5):501.[doi:10.6047/j.issn.1000-8241.2014.05.010]
　HE Zhaoyang,SHANG Yi,HE Liping,et al.Reasons and solutions of SCADA communication interruption in Mohe-Daqing Crude Oil Pipeline[J].Oil & Gas Storage and Transportation,2014,33(7):501.[doi:10.6047/j.issn.1000-8241.2014.05.010]

备注/Memo

收稿日期:2014-5-13;改回日期:2015-4-7。
作者简介:沈光霁,工程师,1984年生,2010年硕士毕业于天津大学材料学专业,现主要从事管道检测技术研究。Tel:18602484842,Email:shenguangji@petrochina.com.cn

更新日期/Last Update: 1900-01-01