1) coalmine bridge
煤矿栈桥
1.
The destruction reasons of the beams of a coalmine bridge framework were more deeply analyzed, and the corresponding mechanics models were established for two main factors that may produce destruction.
就某煤矿栈桥框架结构梁的破坏进行了深入分析,并针对其中可能产生破坏的两个主要因素建立起相应的力学模型,分别进行计算分析,求得各自可产生的作用。
2) transshipment gallery in coalmine
煤矿栈桥走廊
3) coal-conveyer-gallery
输煤栈桥
1.
In this paper,at first,a finite element three-dimensional modal is built by ANSYS program for a coal-conveyer-gallery which has been used for 10 years.
针对一座已使用10年的输煤栈桥,运用ANSYS通用有限元软件建立该结构的三维模型;分析了该结构在不同锈蚀等级、不同运载情况下的静力响应;针对结构跨度较大的特点,考虑行波效应,采用多点非一致激励反应谱法进行了结构的地震响应分析,为结构的安全使用提供了参考。
2.
It is unavoidable, the coal-conveyer-gallery works with double feeding straps, when generating electricity with full or beyond designed capability.
在满发、超发条件下,输煤栈桥双胶带输煤是在所难免的。
4) coal conveying viaduct
输煤栈桥
1.
Optimization of profiled bar selection for coal conveying viaduct;
输煤栈桥钢材选型的优化分析
2.
Through the use of economic comparison between viaduct and reticulated framed structures used in coal conveying viaduct, the reticulated framed structure is proved an advanced and economic technology adopted in large span coal conveying viaduct.
通过对栈桥和网架在大跨度输煤栈桥中的应用进行经济性比较,证明输煤栈桥采用网架结构是技术先进、经济合理的。
5) coal handling gallery
输煤栈桥
1.
The design of the coal handling gallery for 2×300 MW coal-fired units in Wenzhou Power Plant,phase II adopted a new torsion type inte-gral mesh frame structure,which was analyzed by 3-dimensional force applied.
温州发电厂二期工程2×300MW燃煤机组的输煤栈桥设计,采用一种新型的扭剪型整体网架结构,该结构采用三维受力分析。
2.
Pointing to the problems existing in conventional design of the coal handling gallery in thermal power plants and combining the structural design of the coal handling gallery in Hebei Dingzhou Power Plant (2×600 MW), the author has optimized the structures of the coal handling gallery according to the structural systematic scheme and structural analysis method and obtained the economic benefits.
针对火力发电厂输煤栈桥结构常规设计存在的的问题 ,结合对河北定州电厂 (2× 6 0 0MW )输煤栈桥的结构设计 ,从结构体系方案、结构分析方法等方面对输煤栈桥结构进行了优化 ,取得了很好的技术经济效果。
3.
Moreover,the installation problems of coal handling gallery of span concentrated control building are solved by applying high level sliding construction technology.
结合襄樊电厂二期主厂房区域土建工程按,介绍了栈桥拼装平台搭设计算、滑道设计、滑移技术,通过运用高空滑移施工技术解决了跨集控楼输煤栈桥的安装难题,节约了工程成本,缩短了工期。
6) coal bridge
卸煤栈桥
补充资料:逛栈桥
栈桥位于青岛市区中山路南端海边。当海轮缓缓驶近青岛港口时,首先映入眼帘的就是那深入海中的长堤栈桥。
栈桥是青岛的标志,它始建于清光绪十六年(1891年),清政府在这里修建了供海军码头使用的木桥。1931年经过改建,栈桥全部使用巨大的花岗石砌成,全长440米,宽10米。栈桥两边有铁链护栏和莲花路灯。栈桥的尽头建有三角形防波堤,呈“个”形,以减弱风浪的冲击。最南端处筑有一座钢筋混凝土双层双檐琉璃瓦覆顶的八角亭枣回澜阁。这座亭阁规模较大,装饰华丽,可登临远眺。
栈桥的北端两侧是绿草平铺,百花盛开的栈桥公园。栈桥的西厢,因风浪有了栈桥的阻拦,蔚蓝的海洋,显得平静柔和。盛夏季节里,这里的第六海滨浴场,游者云集。
栈桥不远的东南海上是小青岛,它又名“琴岛”。有海堤与海岸连接。岛上山岩耸秀,林木长青,故名“小青岛”。岛上建有白色灯塔一座,入夜,导航的灯光一明一暗,灯影与波光交相辉映,构成一幅奇妙有趣的夜景。
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