The comprehensive management of underground pipelines is a top priority in China's infrastructure construction. Compared to excavation repair technology, trenchless technology has the characteristics of small environmental impact, short construction period, and low comprehensive cost for the repair and renewal of underground pipelines. In this review, the current research on trenchless technology at home and abroad were analyzed, including in situ solidification method, winding method, insertion method, broken pipe method, spraying method, patch method, casing method, robot method, and grouting method. The advantages and disadvantages of trenchless technology and its development and application status at home and abroad were also discussed. Through the analysis of current domestic and international trenchless technology, some suggestions are provided for the development of trenchless technology in China.
Yang Yinchang
,
Huang Zhiwei
,
Quan Xueyou
,
Liu Yong
. Application Status of Trenchless Repair Technology of Underground Pipeline at Home and Abroad[J]. Chinese Journal of Underground Space and Engineering, 2024
, 20(S2)
: 1021
-1027
.
DOI: 10.20174/j.JUSE.2024.S2.59
[1] 李旦罡, 遆仲森. 城市地下管线非开挖修复更新技术的探讨[J]. 城市勘测, 2018(增1): 247-250.
[2] Gerasimova,V.Underground engineering and trenchless technologies at the defense of environment[J].Procedia Engineering, 2016, 165:1395-1401.
[3] 樊学华,祝亚男,于勇,等.油气田管道HDPE内衬技术的应用[J].油气储运, 2021,40(3):326-332.
[4] Bali I,Kurnia W. The curing method influence on mechanical behavior of reactive powder concrete[J]. International Journal on Advanced Science, Engineering and Information Technology,2018,8(5): 1976.
[5] 张盈秋,王丰,杨万航.螺旋缠绕法用于超大口径排水管道非开挖修复[J].中国给水排水, 2022 (6):5-9.
[6] 燕继勇,王恩成,刘素平, 等.HDPE管穿插法修复旧管道技术[J].石油化工腐蚀与防护,2012,29(1):30-32.
[7] 杨帆,武勇.碎裂法管道置换工艺的实践运用[J].中文科技期刊数据库(引文版)工程技术, 2022(5):4.
[8] 史国棚,马保松,杨超, 等.水泥砂浆喷涂法修复钢筋混凝土管道结构性能[J].中国给水排水,2020,36(20):32-38.
[9] 郁片红,孙跃平.排水管道原位固化法修复常见问题与质量控制方法[J].净水技术,2020,39(增1):252-255, 259.
[10] 李秋蓉.排水管道非开挖修复技术及工程应用[J].工程技术研究,2022,7(15):89-91.
[11] 史国棚,马保松,杨超,等.水泥砂浆喷涂法修复钢筋混凝土管道结构性能[J].中国给水排水, 2020, 36(20):32-38.
[12] 金惠玲,孙振平,杨海静,等.排水管道非开挖修复技术的应用现状及展望[J].混凝土世界, 2022(9):82-85.
[13] Han Z C, Zhu Z Y. Articulated robot system for energy pipeline maintenance[J]. Energy Reports, 2022,8(Supp.13): 267-274.
[14] Wang R, Wang F, Xu J G, et al. Full-scale experimental study of the dynamic performance of buried drainage pipes under polymer grouting trenchless rehabilitation[J]. Ocean Engineering, 2019,181:121-133.
[15] 国家统计局. 2022年度统计数据[EB/OL]. http://www.stats.gov.cn
[16] 解铭, 郑涛, 虞峰, 等. 非开挖修复技术在上海市四平路排水管道修复中的应用[J]. 环境工程, 2020, 38(12):45-48,96.
[17] Tregoing C E. Trenchless technology research in the UK water industry[J]. Tunnelling and Underground Space Technology incorporating Trenchless Technology Research, 1996, 11(1):61-66.
[18] Gupta B S, Chandrasekaran S, Ibrahim S. A survey of sewer rehabilitation in Malaysia: application of trenchless technologies[J]. Urban Water, 2001, 3(4): 309-315.
[19] Jackson R J, Genikomsou A S, Moore I D. A linear elastic design model for sprayed liners in damaged reinforced concrete pipes[J].Tunnelling and Underground Space Technology incorporating Trenchless Technology Research,2023,132: 104901.
[20] Abd-Elhady A A ,Sallam M E H ,Alarifi M I , et al.Investigation of fatigue crack propagation in steel pipeline repaired by glass fiber reinforced polymer[J].Composite Structures,2020,242: 112189.
[21] Sathira W, Karthick T, Sarath K, et al. Ultrasonic thickness measuring in-pipe robot for real-time non-destructive evaluation of polymeric spray linings in drinking water pipe infrastructure[J].Mechatronics,2022:88: 102913.
