塔体

塔体法兰当量压力计算

Pressure Equivalent Calculation for Flanges on Tower

得到了塔体的振型、周期等自振特性；

The natural frequency ( period ) and vibration mode of the absorption tower structure are computed .

使用蒙特卡罗（MonteCarlo）方法进行求解，重点进行了该塔体结构的可靠性统计结果和趋势结果的分析研究。

We use the Monte Carlo method for solution and analyze the probability statistical result and the tendency result with emphasis .

采用使塔体定向倾倒后再进行解体的方案爆破拆除，保证了爆破后8h内铁路正常运营。

The blasting demolition scheme of which the tower body was directionally collapsed and then disintegrated was adopted , ensuring normal running of the railway in 8 hours after blasting .

除捕沫层简体及出气管为316L不锈钢外，其余塔体均为碳钢内衬瓷砖结构。塔底为球形底，中心排酸。

The tower has carbon steel shell lined with ceramic tile except demister section and gas outlet nozzle , which are fabricated in 316L stainless steel , and has global bottom with a central hole for acid discharge .

拉西环填料塔体动持液量和面动持液量及其计算作者测定了工厂提供的五种不同形状的车轮型和拉西环催化剂填充床压力降，得到了修正的Ergun方程。

The paper reports the measurements of pressure drop in fixed beds packed with wheel catalysts and Raschig ring catalysts of five different sizes and shapes and industrially supplied . Using the measurements , modified ERGUN equations of the pressure drop were obtained .

塔体直线度和塔盘水平度控制方法

Controlling of the vertical alignment of tower and the level of tray

有限水域中承受顶部荷载的圆柱形塔体自由振动的频率

Study on the natural frequencies of top-loaded cylindrical towers in finite water

发射塔体对垂直极化偶极子天线场形的影响分析

Analysis of Effect of Launching Tower on Vertically Polarized Dipole Antenna Field

塔体结构优化设计初论

The Preliminary Proposition of Optimal Structural Design For Tower Cylinder

嵩岳寺塔塔体曲线的研究

Research on the Curve Outline of Songyue Temple Pagoda

采取调整操作措施和更新塔体后，腐蚀得以缓解。

By means of replacing the tower shell , the corrosion may be relieved .

地基断层对塔体侧墙的应力和位移场的影响

Effect of site fault on the stress and displacement fields of tower lateral wall

研究结果为脱硫塔体内部结构的优化提供了依据。

The study results supplied the basis of optimization of the structure of desulphurization reactor .

对塔体材质的选择、塔体裙座的结构形式进行了分析。

Material selection of the tower and structure pattern of the skirt have been analyzed .

填料塔体动持液量随高径比而变化的规律

The Rule for Voluminal Operating Holdup in Packed Column Varies with Height to Diameter Ratio

塔体刚体运动对其地震载荷的影响

The seismic loading of a column moving as a rigid body in the wave field

通过改变波纹规整填料的倾角可以避免塔体变径。

The column diameter can be kept constant by changing the corrugation angle of structured packing .

分别计算两种激励下的塔体振动响应，可以得到楼顶塔风振响应实用计算公式和表格。

After both responses of the2 parts are calculated , the practical formula and tables are developed .

对塔体进行环向与轴向的贴体加固，对防止塔体进一步变形能起到积极的作用。

It reinforces the tower with circling steel structure can play a positive role in preventing further deformation .

过此点的塔体横截面将承受最大的水平剪力，因而是最危险的承载截面。

The section containing this point is the most dangerous one which withstands the maximum horizontal shear stress .

而塔体材料中较高的杂质成分，是引起这种开裂的最主要原因。

The higher impurity composition of tower shell material was the main reason occurring the crack of this type .

塔体结构采用钢结构框架结构，塔体围护板为玻璃钢结构。

The structure of tower body adopts structural steel frame , its curb plate is fiberglass reinforced plastic structure .

塔体由椭圆型钢结构外筒和混凝土核芯筒以及连接这两者的钢-混凝土组合结构楼面组成。

The tower structure comprises an external steel frame , an elliptical concrete core and steel-framed floors between them .

塔体是通过一个表演的皮肤外，合并方案，结构和围护结构的要求。

The tower body is developed through a performative outer skin that merges programmatic , structural and building envelope requirements .

塔体测试是了解塔体运行情况的一项关键技术，其中应力测试是塔体测试的一项关键内容。

Stress testing on tower body is one of the key technologies to know about working condition of the tower .

考虑参数频变特性的风机塔体雷电暂态计算考虑磁饱和影响的同步发电机励磁电流计算

Lightning Transients of Wind Turbine Towers Involving Frequency-dependent Characteristics Field Current Calculation of Synchronous Generators Taking into Account the Magnetic Saturation

给出了塔体反应增大量估值图，可供对土-结构动力相互作用的影响进行快速评估。

Estimate graphs of tower response increment are given . So the influence of the soil-structure dynamic interaction can be quickly estimated .

通过对塔体受力进行综合分析和断裂力学计算，得出了焦碳塔的裂纹容限，并对其剩余寿命进行了估算。

By means of fracture mechanics calculation the crack tolerance of the tower was obtained and the remain service life was estimated .

该装置脱硫、除尘效率高，塔体高度较低，结构紧凑，具有很好的应用前景。

The JBR with its high removal efficiencies of sulfur and dust and short , compact structure haa potential for industrial applications .