发电厂房

在此基础上，根据VGS模型试验提供的6个测点数据，对整个流道内的脉动荷载作出合理假定，求得三峡发电厂房在63m水头运行时的动力响应。

Based on the measured data at 6 measuring points in a VGS model test and by applying a finite element model , the dynamic responses of Three Gorges Powerhouse under a water head of 63m were calculated under a reasonable hypothesis .

石泉扩机工程发电厂房上部结构强度分析与配筋计算

Strength analysis and reinforcement calculation for powerhouse superstructure of Shiquan expansion project

破碎断层地质条件下发电厂房基础的减震措施研究

Aseismic measures for power plants located on broken fault zone

基于遗传算法的地下发电厂房动态识别

Dynamic identification for underground power house based on genetic algorithm

三峡电站发电厂房动力特性与低水头振动问题研究

Study on dynamic characteristics and vibration of Three Gorges Powerhouse under low water head

浅谈河床式水电站发电厂房通风方式

Elementary discussion on ventilation mode of the power house of hydropower station in river channel

结构的材料参数和边界条件是地下发电厂房动力特性分析研究中极为重要亦很难确定的控制参数。

The parameters of the material and boundary condition are sensitive to the dynamic characteristics of the underground power house .

例如，在大坝项目中，电气及机械工程师会参与到发电厂房及动力设备的设计中去。

In a dam project , for example , electrical and mechanical engineers work on the design of the powerhouse and its equipment .

来宾冷却水电站扩建工程的发电厂房采用圆筒式厂房，上部副厂房及安装间扩宽成矩形，由下部的厂房筒壁及支承排架支承。

The power plant of the Laibin cooling hydropower station extension project was cylindrical , and the upper auxiliary plant and unloading bay were expensed rectangle , being supported by lower plant cylinder and bay .

通过黄河小浪底水利枢纽地下发电厂房顶部通风竖井模筑衬砌这一工程实例，较为系统地介绍了一种适合于竖井工程的伸缩式活动模板台车的设计全过程。

This paper systematically describes the design process of telescopic formwork for shaft by taking a example of the form lining of ventilation shaft at the top of the underground power station Xiaolangdi Hydropower Project .

利用CFD对采用空冷器的火力发电厂主厂房（汽轮机房）自然通风的流场进行了研究。

Uses CFD technique to analyse natural ventilation flow field in the main workshop .

火力发电厂主厂房结构选型

The Structure Type Choosing of the Main-Building in the Thermo-Electric Plant

发电厂厂房开挖爆破振动监测与数据分析

Observation and Data Analysis of Blasting Vibration during Power House Excavation

火力发电厂主厂房自然通风设计分析

Analysis of natural ventilation design for main building in thermal power plant

发电厂主厂房结构与新规范实施的探讨

Discussion on Main Power House Structure & New Standard Implementation

三维数值模拟技术在深部大型发电站厂房信息化施工中的应用

3D numerical simulation on the information-oriented construction for the deep underground houses

火力发电厂主厂房地震反应分析

Analysis of earthquake reaction of the main building of the firepower plant

火力发电厂主厂房结构抗震设计要点分析

Analysis on structure anti-seismic design points of the power plant main workshop

火力发电厂主厂房载荷设计技术规程

Technical specification for load design of main building in fossil fuel power plants

河北国华黄骅发电厂主厂房二期工程深化设计

Guohua Huanghua Power Plant main workshop building project phase ⅱ in Hebei Province

发电厂主厂房火灾后检测鉴定与加固处理

Testing and strengthening for the main factory building of a power plant after a fire hazard

因此，在大型火力发电厂主厂房结构框架柱中应用高强混凝土，需研究改善高强混凝土柱抗震变形能力的有效措施。

Therefore , applying the high strength concrete in the main factory building structure frame columns of large-scale thermal power plants needs to research the valid measure that improves the and seismic deformation capability of high strength concrete frame column .

在大型火力发电厂主厂房结构、高层钢筋混凝土结构以及其它重型工业建筑结构中，柱一般都承受很大的竖向荷载，故轴压比设计问题是柱设计的一个非常重要的因素。

In the main factory building structure of large-scale firepower plant , high-rised reinforing steel concrete structure as well as other heavy industrial building structure , the columns generally bears large vertical loads , hence the axial compressive ratio is a very important factor in columns design .

发电车间旧厂房爆破拆除

Demolition of an old industrial building of electric power workshop by blasting method

火力发电厂钢结构厂房的抗震分析

Antiseismic Analysis of Steel Structure building for Fuel Electric Power Plant

大型火力发电厂的主厂房通常采用现浇钢筋混凝土框架结构，这是因为钢筋混凝土结构的技术经济指标明显优于其他结构体系。

The main building for thermal power plant usually adopts RC structural system , because it is more economic than adopting other structural system .

引子渡水电站枢纽工程由混凝土面板堆石坝、左岸溢洪道、发电引水隧洞、厂房等水工建筑物组成。

The pivot of Yinzidu Hydropower Station consists of a concrete face rockfill dam , a spillway on the left band , conduit tunnels , and a powerhouse .

为获得较大的发电水头，保证厂房建于基岩上，施工期开挖形成深基坑并导致大量渗水。

To gain greater water head for power generation and ensure powerhouse to be founded on bedrock , considerable seepage water is caused by deep excavation of foundation pit during construction stage .