水电规划,hydropower planning
1)hydropower planning水电规划
1.At last earlier stage works of hydropower planning and exploitation are discussed.最后论述了水电规划及水电滚动开发的前期工
2.The strong adaptability of GIS for hydropower planning and the merits of hydropower planning DSS based on GIS are analysed.分析了地理信息系统 (GIS)技术在水电规划专业中的适用性 ,以及基于GIS的水电规划决策支持系统的优点 。
3.In the light of unfavorable influence to water intakes,the countermeasures for treatment of urban sewage,main industrial pollution sources and water quality protection of water sources are put forward,which provides scientific basis for decision making and management of hydropower planning and construction at Panzhihua reach.针对取水口的不利影响提出了城市污水处理、重点工业污染源的治理以及加强饮用水源地水质保护等对策措施,为攀枝花河段水电规划和工程建设的决策与管理提供科学依据。
英文短句/例句

1.An Analysis on Terrestrial Eco-environment Impact Assessment of Hydropower Programming;水电规划陆生生态环境影响评价研究
2.Study of Hydro-power Engineering PEIA Indicator System水电规划环境影响评价指标体系研究
3.Code for planning and design of reservoir submergence treatment of hydroelectric engineering水利水电工程水库淹没处理规划设计规范
4.Studies on Power System Planning of Hunan Province and Hydro Electric Energy Planning of Yuanshui River;湖南电力规划及沅水干流水力发电规划的综合研究
5.Hydropower energy system planning based on the sustainable development;基于可持续发展的水电能源系统规划
6.Discussion of Overall Planning and Design of Afforestation of Xiluodu Hydropower Station溪洛渡水电站绿化总体规划设计探讨
7.The Research of Transmission System Planning in the Middle Drainage Area of Kaidu River, Xinjiang Province;新疆开都河中游河段水电站输电系统规划研究
8.Study on Power Transmission Planning of Longyangxia Upriver Hydropower Cascade Stations;黄河龙羊峡上游水电站群输电规划研究
9.For the hydro optimization the best method is the stochastic dynamic programming.对于水电系统随机动态规划是最好的优化方法.
10.Core Rock-fill Dam Construct-Planning Introduction of Nuozhadu Hydropower Station糯扎渡水电站心墙堆石坝施工规划简介
11.Material Planning and Transportation Simulation of Rockfill Dam for Hydropower Project;水电工程堆石坝料物调运规划与模拟实现
12.A New Strategy for Short-Term Scheduling Optimization of Cascaded Hydro Plants Based on Chance-Constrained Programming;基于机会约束规划的梯级水电站短期优化调度
13.Discussion on Hydropower Development of Lancangjiang River and Local Resident s Developing and Planning;西藏澜沧江水电开发与原住民发展规划探讨
14.Revision and Improvement of Design Standard for Resettlement Planning of Hydroelectric Projects;水电工程移民安置规划设计标准的修编改进
15.Discusstion and Practice of Actualized Planning of Migration Resettlement and Construction Expropriated Land of Hydroelectric Projects;大型水电工程移民安置实施规划探索与实践
16.Electronic government administration program and application in Liupanshui city;六盘水市电子政务建设主体规划与实施方案
17.A Method for Hydro Station Economic Dispatch Based on the Evolution Program;基于进化规划原理的水电厂经济运行算法
18.The Application of DP Method in the Hydropower Station s In House Economical Operation;动态规划法在水电站厂内经济运行中的应用
相关短句/例句

hydroelectric planning水电规划
1.River basin hydroelectric development will produce a lot of benefits,and it will also influence the ecological environment of river basin to a great extent,so it is quite important to study the economic appraisal of river basin hydroelectric planning.因而,开展流域水电规划环境影响的经济评价具有明显的现实意义。
3)small hydropower planning小水电规划
1.For the reason of multiple factors in small hydropower planning and as a complicated comprehensive work, the management and decision making of hydropower development by traditional means is difficult to meet the present development requirement in the aspect of technology.小水电规划由于涉及因素众多、综合性强 ,采用传统方法来管理和决策在技术方法上已难以适应当今需求 ,充分利用专家长期积累起来的专业经验和知识 ,可以很好地解决水电规划中确定性、结构化的问题 ,也可以解决普通技术人员难以解决的不确定性、非结构化的问题 ,能快速获得准确详尽的小水电规划信息 ,获得更科学、合理、有效的规划方案。
4)hydroelectric scheme水电规划(能)
5)Hydraulic and Hydroelectric Plan水利水电规划
1.Explaining the Problems of Hydrologic,Hydraulic and Hydroelectric Plan with the Help of Graphs;借助图形讲解水文与水利水电规划问题
6)basin hydropower planning流域水电规划
1.The paper develops the thought and way of value model,and establishes five environmental quality objects and six environmental factors for river basin hydropower planning.研究提出了流域水电规划价值模型的思路和方法,确立了水电规划的5个环境质量目标和6类环境因子。
延伸阅读

长江宜宾—宜昌段水电规划长江宜宾—宜昌段水电规划hydropower development planning of the Yibin-Yichang reach of Changjiang (Yangtz) river  C 11orlg Jror、gy一t〕一r、Y一c}〕〔】;10‘」tjoll引1、一l〔}!‘:r、QLz。{1、J(-长江宜宾一宜昌段水电规划[hydroPowerdevelopment planning of the Yib一n一Yiehangreaeh of Changiiang(Yangtze)river习根据长江水利委员会编制的《长江流域综合利用规划要点报告(一九八八年修订)》,在宜宾一宜昌河段安排有石硼、朱杨溪、小南海、三峡和葛洲坝5级水电站(见图)。该河段的治理与开发重点在于减免洪灾损失、利用水能发电和提高河道通航能力。冲离从111 长江宜宾宜昌段梯级水电站布置图 其中长江三峡工程是为防洪、发电、航运服务的控制性工程.其水库承担主要的调节任务。葛洲坝水利枢纽的水库承担反调节任务。其余3座是径流式水电站5座水库共有总库容542.5亿m二‘.其中防洪库容221.5亿m3.兴利库容167.9亿m3。5座水电站总装机容量25945 MW,平均年发电量1282亿kw·h。 长江宜宾一宜昌段又称川江,河段长1洲0 km.落差219. Zm,河道平均比降为。.021%。宜昌水文站以上的流域面积约100万kmZ,其中在本河段汇入的支流流域面积占半数以上。宜昌水文站平均年径流量4510亿m“,平均年输沙量5.3亿t。本河段拥有水能理论蕴藏量2161亿kw·h/a。 长江宜宾至重庆段流经丘陵,两岸地势较低.人口较稠密,为减少水库淹没损失.不宜建高坝大库。开发本河段的主要任务是改善河道通航条件并结合发电。在该河段布置有石硼、朱杨溪和小南海3座枢纽。为不淹宜宾市,规划石硼正常蓄水位为265m;为不淹沪州市,规划朱杨溪正常蓄水位为23om;而小南海正常蓄水位为195 mo 长江从重庆至宜昌段流经峡谷,两岸山势陡峻,河谷狭窄,河床深切。开发本河段的主要任务之一是防洪。因本河段是控制长江上游洪水的咽喉要地.控制武汉市洪水来水的2/3以上,又距重点防洪的荆江地试较近。主要任务之二是水力发电。因本河段水能资源丰富,且距川东、重庆、华中、华东电网的跄离较近主要任务之三是改善航运,建坝奎水可增大航道水深,而水库调节径流后又增大长江中下游枯水期流量。本河段最下游的茜洲坝水利枢纽已经建成,其正常蓄水位为“m,装机容t2715MW,平均年发电t157亿kw。h.长江三峡工程建成投产后,葛洲坝水利枢纽将成为反调节水库,把三峡水电站发电后的日内不均匀流t调节成较均匀的流量出库以适应航运要求。 1992年4月中国第七届全国人民代表大会第五次会议通过了关于兴建长江三峡工程的决议,决定批准将兴建长江三峡工程列人国家1991~200。年国民经济和社会发展十年规划.1993年7月国务院审查批准了长江三峡工程初步设计报告(枢纽工程),1994年12月14日,长江三峡工程正式开工。