1) Three Gorge spillway
三峡溢流坝
2) Three Gorges dam
三峡大坝
1.
Would the Three Gorges Dam Reduce the Upwelling and Productivity in the East China Sea?——Reply to Wang and Sun s Comments;
三峡大坝会减小东海的上升流和生产力吗?——敬复王保栋、孙霞两位指教
2.
Would the Three Gorges Dam Reduce the Upwelling and Productivity in the East China Sea?——Discussion with Mr.Chen Zhen-dong;
三峡大坝会减小东海的上升流和生产力吗?——与陈镇东先生商榷
3.
A Study on the Development Strategies of Three Gorges Dam Tourism Economic Circle;
三峡大坝旅游经济圈发展战略研究
3) Three Gorges Dam
三峡建坝
1.
Evaluation on Schistosomiasis Control Effect of the Intervention Measures Adapted to the Ecological Environment Changes in Jiang Han Plain Due to Establishment of the Three Gorges Dam;
江汉平原三峡建坝后应对生态环境变化的血防干预措施效果评价
2.
Objective:To investigate the influence of the variation of Changjiang water level in Anhui province after the building of the Three Gorges dam on the snail distribution and epidemic of schistosomiasis.
目的 :研究三峡建坝后长江安徽段水位变化对钉螺分布和血吸虫病流行的影响。
3.
Objective To study the influence of drowning on survival of Oncomelania in order to provide evidences for the influence on the spreading of schistosomiasis due to the construction of Three Gorges Dam.
目的 探讨水淹对钉螺生存的影响 ,为长江洪水和三峡建坝引起的水位变化对血吸虫传播的影响提供依据。
4) Three Gorges Dam Project
三峡建坝
1.
Objective To investigate and analysis the influence on snail ecology by water level of the Yangtze River, water table, soil humidity and air temperature after the Three Gorges Dam Project.
目的 了解三峡建坝后长江水位的变化 ,引起地下水位、土壤含水量、气温等因素变化对钉螺生态的影响程度。
2.
Methods Data on typical water lever of th e Yangtze River pre and post Three Gorges Dam project and the snail distribut ion and schistosomiasis prevalence were collected by means of field surveys and obs ervation.
目的 对三峡建坝后可能对江汉平原地区血吸虫病传播产生影响的长江水位、地下水位、降雨量、蒸发量等环境因素进行调查并分析其影响程度。
5) Three Gorges Project
三峡大坝
1.
The model is applied to analyze a section of the gravity dam in the Three Gorges Project.
将其应用于三峡大坝的一个非溢流断面,得到地震作用下的弹塑性损伤响应,并据此评价大坝结构的安全性能和超载潜能。
6) Three Gorges dam area
三峡坝区
1.
Study on the Emergency and Linkage Organizations' Optimization of the Multi-agent for the Emergency Incidents in the Three Gorges Dam Area;
三峡坝区突发事件的多主体应急联动组织优化研究
2.
Three Gorges dam area is located at the middle stretch of the Xiling Gorge, with an W-E river valley surrounded with mountains, subtropical and continental monsoon climate and characterized by warm in winter, early spring, hot in summer and rainy in autumn, which is predominately attributed to its geographical location, topography and hot underlying surface.
三峡坝区地处长江三峡西陵峡中段。
3.
The 35 kV power grid in the Three Gorges dam area is the main power supply during the construction period,and is important auxiliary power for the Three Gorges power plant.
三峡坝区35kV施工电网是三峡工程的主要施工电源,同时为三峡电站提供重要的厂用电。
补充资料:非溢流重力坝
非溢流重力坝
non-overflow gravity dam
feiyiliu zhongliba非溢流重力坝(non一overflow gravitydam)坝顶不溢流的重力坝。各种型式的重力坝都可以建为非溢流坝。筑坝材料多用混凝土,中小型工程也可用浆砌块石。 在大多数重力坝枢纽中,于河床中部或主流部分布置溢流重力坝,两侧布置非溢流重力坝与岸坡相接,其间用边墩和导墙隔开(见重力坝图2)。少数工程,如中国刘家峡水电站,由于河谷狭窄,需布置电站厂房,岸边又有适宜条件布置溢洪道,经方案比较,设置了河岸式溢洪道,拦河坝全部为非溢流重力坝。非溢流重力坝可根据调洪预泄、放空水库、排沙等运用要求在坝身布置深式泄水孔。当有坝后厂房时,可穿过坝体布置发电引水管。 非溢流重力坝的坝体设有横缝、纵缝、止水、排水、廊道等(见坝体分缝、止水、坝内排水管、坝内廊道)。进行非溢流重力坝剖面设计时,常先拟定基本剖面,再根据运用和施工要求修改成为实用剖面(见重力坝剖面),然后进行详细的稳定和强度计算(见重力坝应力分析和重力坝抗滑稳定),根据计算结果再进行修正。为减小计算工作量,各国已编制了不少重力坝剖面优化程序,可用电算求解。剖面确定后,再进行分缝、止水、排水、廊道、坝内引水管、深式泄水孔等的设计和计算。对坝基稳定和处理应给予足够重视(见大坝岩基处理)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条