积石峡水电站主堆石料碾压试验报告

来源 :科技信息 | 被引量 : 0次 | 上传用户:okmijnuhbygvtfcrdx
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
1.工程概况积石峡水电站位于青海省循化县境内积石峡出口处,距上游公伯峡水电站60km,距省会西宁市公路里程206km。积石峡水电站主要任务是发电。该工程水库为日调节水库,正常蓄水位1856m,最大坝高101m,总库容2.94亿m3,最大发电水头73m,总装机容量1020MW,保证出力332.3MW,多年平均发电量33.63亿Kw·h。 1. Project Overview Jishixia Hydropower Station is located in Xunhua County, Qinghai Province, Jishishi Xia exit, from the upstream Gongboxia Hydropower Station 60km, from the provincial capital Xining highway mileage 206km. Jishixia hydropower station main task is to generate electricity. The project reservoir is a daily regulation reservoir with a normal water storage level of 1856m and a maximum dam height of 101m with a total storage capacity of 294 million m3 and a maximum generating head of 73m with a total installed capacity of 1020MW and a guaranteed output of 332.3MW and an average annual generating capacity of 3.363 billion Kw.h.
其他文献
将炭纤维细粉注入小鼠右颞侧硬脑膜下腔 ,动态观察其移动及组织病理学反应。结果 :注入后 1周~ 5 2周 ,未见实验组小鼠有与炭纤维植入有关的神经病学改变 ;其右颞侧硬膜内面及
不同的晶化温度和保温时间对低熔点可切削微晶玻璃的微观组织形貌、切削性能和力学性能有明显影响. 试验表明, 600°C保温6~8h与650°C保温1~2h的晶化效果等同, 具有最佳的切削
Recent years have witnessed a proliferation of quantitative methods for biogeographic inference.In particular,novel parametric approaches represent exciting new opportunities for the study of range ev
Ciliary neurotrophic factor (CNTF) has pleiotropic actions on many neuronal populations as well as on glia. Signal transduction by CNTF requires that it bind fi
该文分析了上海自由贸易试验区在九个月时间里,上海在加快实施贸易、投资、金融及行政管理各领域的制度创新试点工作方面取得的进展,并指出上海在投资管理制度创新、贸易监管
The synthesis and biological evaluation of two series of salicylanilide derivatives on the EGFR and ErbB-2 tyrosine kinases inhibitory activities were conducted
A 90-year-old Chinese man was transferred to the Emergency Department of the Affiliated Shantou Hospital of Sun Yat-sen University for treatment of an acute myo
Background Given that three-dimensional finite element models have been successfully used to analyze biomechanics in orthopedics-related research,this study ai
通过理论计算和分析凸轮表面的接触应力,指出凸轮轴故障通常发生在供油凸轮;从凸轮表面相关工作环境、凸轮表面摩擦副作用过程进行了分析,指出在凸轮与滚轮形成的摩擦副工作