近边坡地下洞室设计分析及处理对策——以曾文水库防淤隧道消能室为例

doi:10.3973/j.issn.1672-741X.2014.S.033

隧道建设（中英文） ›› 2014, Vol. 34 ›› Issue (增刊): 203-212.DOI: 10.3973/j.issn.1672-741X.2014.S.033

近边坡地下洞室设计分析及处理对策——以曾文水库防淤隧道消能室为例

朱晃葵¹，张世贤²，陈逢时³，颜呈仰¹，欧阳永强¹

(1.黎明工程顾问股份有限公司，台湾台中； 2.经济部水利署南区水资源局，台湾台南；3.联合大地工程顾问股份有限公司，台湾台北)

收稿日期:2014-06-19 出版日期:2014-08-15 发布日期:2014-08-11
作者简介:朱晃葵(1985—)，台湾人，2009毕业于台湾大学土木工程研究所，硕士，主要从事岩土及隧道工程之规划设计等工作。

Design and Analysis of Underground Cavern near Slope and Its Treatment Measures: Case Study on Sediment Sluicing Tunnel of Tseng Wen Reservoir

CHU Huangkuei¹, CHANG Shihhsien², CHEN Fongshih³, YEN Chengyang¹, OUYANG Yongchiang¹

(1. Liming Engineering Consultants Co., Ltd., Taichung, Taiwan; 2.Southern Region Water Resources Office, WRA, MOEA, Tainan, Taiwan; 3.United Geotech Engineering Consultants Co., Ltd., Taipei, Taiwan)

Received:2014-06-19 Online:2014-08-15 Published:2014-08-11

摘要/Abstract

摘要：

曾文水库为台湾容量最大之水库，亦为嘉南地区最主要之水源。自1974年营运至今饱受坝前库床淤积之困扰影响蓄水总量，由于缺乏库底排砂设施因而规划新建一防淤隧道于水库左坝座，利用蓄清排浑之操作来减缓水库淤积以延长水库寿命。由于防淤隧道出水口河道并无足够腹地提供浑水消能，故于山体内设置一长190 m、宽23 m、高46 m之地下洞室。针对防淤隧道消能池室范围进行案例说明，并利用三维数值模型检核设计需求之稳定性，透过岩盘参数的假设说明及开挖支撑系统设计的检讨，来确保地下洞室开挖之安全，亦针对该区域遭遇之关键课题进行说明，其中包含闸室顶拱两翼岩盘承载力、隧道分岔区域岩盘处理对策、边坡浅覆盖偏压处理对策等项目。

关键词: 曾文水库, 地下洞室开挖, 隧道偏压, 三维数值模拟

Abstract:

Tseng Wen Reservoir, which has the largest capacity in Taiwan, is the main water source in south Taiwan. Operating since 1974, the reservoir’s storage capacity decreases due to sediment deposition. Due to the lack of silt facilities in the bottom of the dam, a new sediment sluicing tunnel is planned under the left side of the dam so as to extend the service life of the reservoir. The tunnel outlet river does not have sufficient area to provide energy dissipation, therefore an underground cavern with a size of L190 m×D23 m×H46 m is needed. In this study, threedimensional numerical model analysis is used to provide rock mass parameter assumptions and to review the designed support system so as to ensure the safety of the underground excavation. The paper also carries instructions for key issues encountered in the region, which includes rock mass bearing capacity at the top of the tunnel arch, the bifurcation region treatment measures of the cavern, countermeasures to cope with the asymmetrical pressure of the slope, etc.. 

Key words: Tseng Wen Reservoir, underground cavern excavation, asymmetrical pressure, threedimensional numerical simulation

中图分类号:

U 45

朱晃葵，张世贤，陈逢时，颜呈仰，欧阳永强. 近边坡地下洞室设计分析及处理对策——以曾文水库防淤隧道消能室为例[J]. 隧道建设, 2014, 34(增刊): 203-212.

CHU Huangkuei, CHANG Shihhsien, CHEN Fongshih, YEN Chengyang, OUYANG Yongchiang. Design and Analysis of Underground Cavern near Slope and Its Treatment Measures: Case Study on Sediment Sluicing Tunnel of Tseng Wen Reservoir[J]. Tunnel Construction, 2014, 34(增刊): 203-212.

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近边坡地下洞室设计分析及处理对策——以曾文水库防淤隧道消能室为例

Design and Analysis of Underground Cavern near Slope and Its Treatment Measures: Case Study on Sediment Sluicing Tunnel of Tseng Wen Reservoir

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