山区管道工程坡面径流防控设计及截排水体系

doi:10.16843/j.sswc.2023.06.008

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摘要为系统研究山区管道工程坡面径流防控设计及措施体系,对公路、铁路、市政、水土保持及油气管道行业设计标准规范进行对标分析,选取南方湿润区8个典型管道作业带坡面开展水文计算和截排水体系探讨。研究表明:1)根据管道口径和防护对象确定防控标准,建议管道顺坡敷设设计降雨重现期取3~5 a,管道横坡敷设设计降雨重现期≥DN 800口径管道取20~30 a,≥DN 200~DN 800中小口径管道取15~20 a,口径3/s,耐久性要求较低;4)北方干旱、半干旱地区可采用鱼鳞坑、水平沟等整地方式调控坡面径流。研究成果可为山区管道工程水工保护和水土保持设计、施工提供参考。

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	周大淜
	罗扬
	葛华
	郭涵宇
	王棠昱

关键词 ：山区管道, 水土保持, 水工保护, 坡面截排水, 设计洪水, 坡面径流, 设计标准

Abstract：[Background]Water damage is the main disaster that threatens the safety of pipelines in mountain. Runoff scouring of pipeline construction scope is an important manifestation of water damage. Although some researches have been carried out on prevention and control of slope runoff, however, problems of interception and drainage of construction scope of pipeline in mountain still often occurs, such as inadequate protection, excessive protection or unreasonable protection. Therefore, it is necessary to conduct a systematic study on design standards and protective measures system of slope runoff of construction scope in mountainous areas. [Methods]We selected highway, railway, municipal, water and soil conservation, oil and gas pipeline industry design standards and specifications for comparative analysis on interception and drainage of slope runoff. Then we selected 4 typical along-laying slopes and 4 typical cross-laying slopes of the mountain pipeline from Puning, Guangdong, Beilun, Zhejiang, Cangxi, Sichuan, Tongnan, and Congqing in the southern humid area to carry out hydrologic calculation and discuss the design essentials of interception and drainage system.[Results]1) Different design standards of interception and drainage are formulated according to different engineering grades and protection objects in highway, railway, municipal, water and soil conservation. 2)Simplified rational formula shall be adopted for hydrologic calculation of slope runoff, and the calculation accuracy can be improved by using local rainstorm atlas parameters.3) According to the calculation, the slope runoff of pipeline section with equal length in cross-laying slope is 8-10 times that of along-laying slope in southern humid area. For along-laying slope, the interval flow is 0.01-0.02 m³/s with an interval of 25-30 m, and the intercepting ditches or water blocking stems can be used to intercept runoff. The durability requirements for such structures are relatively low. For cross-laying slope, the interval flow is 0.12-0.20 m³/s with an interval of 30 m, and the interval flow is 0.19-0.34 m³/s with an interval of 50m. The intercepting ditches shall be set at the inner side of cross-laying construction scope, and the runoff shall be introduced to the downhill side based on microtopography. Such structures shall be considered to have certain durability and should adopt masonry, concrete and other structural forms. 4)In arid and semi dry areas in North China, fish scale pits, horizontal ditches and other land consolidation methods can be used to regulate slope runoff.[Conclusions]It is suggested that the design recurrence interval of flood for along-laying slope should be 3-5 years, that of cross-laying slope should be 20-30 years for pipelines with DN 800 and above, 15-20 years for pipelines with DN 200-DN 800, and 10-15 years for pipelines less than DN 200. The interception and drainage system on construction scope should be formulated according to the characteristics of cross-laying slope and along-laying slope in mountainous areas.This study can provide reference for the design and construction of hydraulic protection and water and soil conservation of pipeline projects in mountainous areas.

Key words： pipeline in mountain area soil and water conservation hydraulic protection slope interception and drainage designed flood slope runoff design standard

收稿日期: 2022-09-02

PACS:

S157.1

基金资助:国家管网集团西南管道有限责任公司立项科研课题“山区管道全位置自动焊适应性研究”(KY2019-007)

作者简介: 周大淜(1985-),男,硕士,工程师。主要研究方向:石油天然气行业水工保护及水土保持。E-mail:zhoudp_sw@cnpc.com.cn

引用本文:

周大淜, 罗扬, 葛华, 郭涵宇, 王棠昱. 山区管道工程坡面径流防控设计及截排水体系[J]. 中国水土保持科学, 2023, 21(6): 71-79.
ZHOU Dapeng, LUO Yang, GE Hua, GUO Hanyu, WANG Tangyu. Fortification design of slope runoff as well as interception and drainage system for pipeline engineering in mountain area. SSWC, 2023, 21(6): 71-79.

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