1.
The Ways to Improve the Dust-catching Rate of the BF Gas Gravity Duster;
提高高炉煤气重力除尘器除尘率的方法
2.
The Experimental Study for Increasing Dust-catching Rate of the BF Gas Gravity Duster
高炉煤气重力除尘器提高除尘效率实验研究
3.
Model experimental study of new gravity duster for BF off-gas
新型高炉煤气重力除尘器的模型试验研究
4.
The Development and Application of A New Type Ash Valve for Dust Collector
一种新型高炉重力除尘器排灰阀的研制与应用
5.
ANALYSIS AND DESIGN OF RAW GAS PIPELINE OF GRAVITY DUST-REMOVAL SYSTEM FOR A BLAST FURNACE
某高炉工程重力除尘系统粗煤气管道分析设计
6.
Experimental research on removing of micron scale dust by high gravity rotating packed bed
超重力旋转床微米级粉尘脱除实验研究
7.
The Analysis of Mechanical Behaviors of Dust Particle in ESP
电除尘器中粉尘粒子的力学行为分析
8.
During this operation most of the dirt and impurities that might be present are removed by either gravity or centrifugal force.
在此工序,大部分尘土和杂质通过自重和离心力的作用被除去。
9.
wet type multiple baffle chamber
备有多重挡板的湿式除尘器
10.
In order to deal with the problem of severe overloading on a main steel beam of dust catcher in a power plant,an external prestress truss structure for reinforcement is presented.
针对某电厂除尘器主钢梁严重超载的情况,提出体外预应力桁架加固方案。
11.
To show how to take away the dust. The electrostatic force act on the dust which has charge, the dust will float to the other side.
静电除尘:是带电的灰尘在静电力的作用下吸附到另一端的壁上。
12.
Research on the Reusable Product Configuration Design for Sack Dust Catcher;
布袋除尘器可重用配置技术研究与应用
13.
Ceramic Filter possesses itself of a great potentiality in development.
陶瓷过滤器是最具发展潜力的除尘技术之一。
14.
The Particle Dynamics in Typical Configurations of ESPs;
典型结构下电除尘器中的粒子动力学特性
15.
Study on Stability Performance and Optimization of the Steel Container of Pulse-Jet Cleaning Bag Filter
脉冲袋式除尘器箱体受力机理及结构优化研究
16.
Increase Converter Gas Cleaning System Ability in Production Practice
提高转炉一次除尘系统能力的生产实践
17.
The system that electrostatic precipitator carried the ash through air reformed and its running managed
静电除尘器气力输灰系统改造及运行管理
18.
Dust removal equipment users can choose wet duse removal or bag dust removal.
除尘设备用户可选择湿式除尘和袋式除尘。