对怒江水电开发中的地震地质与工程抗震问题的认识
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摘要
针对近期关于怒江流域地震地质条件复杂、地质灾害风险程度高而反对水电开发的言论,笔者对怒江断裂带进行了研究,对怒江流域进行水电开发而进行的工程抗震问题进行了论述,对修建水库大坝后发生地质灾害的风险水平进行了预测,并介绍了我国高坝抗震安全保证的综合措施。研究表明:怒江断裂带并非是一条作为欧亚大陆碰撞缝合线的深大断裂;怒江在建设水库大坝后会降低流域内的地质灾害风险水平;在复杂构造带和强震易发区进行工程建设是可行的;在详细的地震安全性评价基础上和细致的工程抗震设计后进行水库大坝的建设是安全的。
Recently there are some remarks which are against the Nujiang River hydropower development due to the complex earthquake geological conditions and high risk of geological disasters.This paper stud ies the Nujiang fault,predicts the level of risk of geological disasters after the construction of the dam and introduces safety assurance measures in earthquake resistant engineering.Studies show that the Nujiang fault is not an Eurasia collision suture and the risk of geological disasters will be reduced after the construction of the dam.Carried out construction works in complex structure and the earthquake-prone areas is feasible and the construction after detailed earthquake safety evaluation and detailed seismic design is safe.
Recently there are some remarks which are against the Nujiang River hydropower development due to the complex earthquake geological conditions and high risk of geological disasters.This paper stud ies the Nujiang fault,predicts the level of risk of geological disasters after the construction of the dam and introduces safety assurance measures in earthquake resistant engineering.Studies show that the Nujiang fault is not an Eurasia collision suture and the risk of geological disasters will be reduced after the construction of the dam.Carried out construction works in complex structure and the earthquake-prone areas is feasible and the construction after detailed earthquake safety evaluation and detailed seismic design is safe.
引文
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[2]董哲仁.对于怒江开发与保护的思考[J].水利发展研究,2005,5(8):7-11.
[3]王朝阳,翟国寿.我国水能资源“富矿”—怒江水电基地[J].水力发电,2006,32(5):1-4.
[4]徐瑞春,周建军,王正波.怒江水电开发与环境保护[J].三峡大学学报(自然科学版),2007,29(1):1-6.
[5]耿雷华,杜霞,刘恒,等.纵向岭谷区怒江健康流量阀值研究[J].人民长江,2008,39(19):42-45.
[6]李光涛.滇西南怒江断裂带第四纪以来的构造活动性[D].北京:中国水利水电科学研究院,2008.
[7]云南省地调局.云南省区域地质志[M].北京:地质出版社,1993.
[8]赵文津,刘葵,蒋忠惕,等.西藏班公湖-怒江缝合带—深部地球物理结构给出的启示[J].地质通报,2004,23(7):626-635.
[9]彭土标,袁建新,范俊喜,等.怒江中下游流域区域构造稳定性与水电开发关系研究[C]//中国水利发电工程学会地质及勘探专业委员会第二次学术交流会论文集.2010:1-12.
[10]GB18306-2001,中国地震动参数区划图[S].
[11]骆银辉,徐世光,吴香根.云南“三江”并流区地质灾害发育机制及其防治[J].中国地质灾害与防治学报,2007,18(4):1-6.
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