文章编号:1006 2610(2020)03 0067 03
师广山,张 帆,王旭辉
(中国电建集团西北勘测设计研究院有限公司,西安 710065)
摘 要:德尔西水电站通过调整㊁优化设计方案,将调压井和压力管道竖井合并布置,采用快速正井法施工工艺进行竖井开挖和支护,采用滑模工艺施工衬砌混凝土,有效缩短了压力管道的工期,施工过程顺利,达到了预期目的,取得了良好的工程效益,是一次成功的探索和实践㊂关键词:正井法;调压井;竖井;合并布置 中图分类号:TV732.51;TV732.4 文献标志码:A DOI :10.3969/j.issn.1006-2610.2020.03.013
Com bined Arrangem ent Design of Surge Tank and Shaft for Hydropower Project
with Down -Excavating Construction
SHI Guangshan ,ZHANG Fan ,WANG Xuhui
(PowerChina Northwest Engineering Corporation Limited ,Xi'an 710065,China )
Abstract :By adjusting and optimizing the design plan ,DELSITANISAGUA Hydropower Project has merged the surge tank and the verti⁃cal shaft.The Down-Excavating construction method is used for the vertical shaft excavation and support.The sliding lining process is used to construct the lining concrete ,which significantly cuts down the construction period of the pressure piping.The construction which
achieved the expected purpose and favorable engineering benefits was a successful practice and exploration.Key words :Down-Excavating construction ;surge tank ;shaft ;combined arrangement
收稿日期:2019-10-10
作者简介:师广山(1983-),男,河南省濮阳市人,高级工程师,从事水利水电工程水工设计工作.
1 工程概况
厄瓜多尔德尔西水电站引水隧洞长8037.75m,布置岸边式地面厂房㊂电站装机容量180MW,安装3台冲击式机组,机组最大静水头534.7m,额定引用流量为42.3m 3
/s㊂
工程区地处热带,多年平均降雨量2870mm
[1]
㊂上游调压井平台与电站厂房之间的边坡高
差约540m,自然地形复杂,冲沟山梁相间,植被茂密,边坡地形陡峻㊁覆盖层较厚㊂根据地质勘探资
料,调压井和压力管道部位岩性主要为片麻岩,调压井上部围岩为Ⅳ㊁Ⅴ类,下部为Ⅱ㊁Ⅲ类[2]㊂
2 布置方案探索
本水电站水头高㊁地震参数大,针对压力管道的布置综合考虑安全㊁工期㊁投资㊁施工等因素,对多种方案进行了技术经济比较㊂
压力管道明管方案优点是不需地下洞室开挖,工期和造价相对较少㊂但当地政府对环保要求较高,开挖管槽㊁砍伐树木㊁布置碴场等受到诸多限制㊂厂房后边坡地形较陡㊁高差较大㊁覆盖层较厚,工程区降雨量大,施工场地和施工道路布置困难,经过对多种明管方案进行研究分析,考虑工程安全和施工困难等因素本工程不适宜采用明管方案[6]㊂
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6西北水电㊃2020年㊃第3期===============================================
