What is the main structure of the electrostatic precipitator?
Today, society is a hot and popular era of environmental protection. Environmental quality affects people's quality of life. Therefore, dust removal is very important. Of course, in addition to electrostatic dust removal equipment is one of the necessary dust removal equipment.
The main structure of the electrostatic precipitator is steel structure, which is welded by profile steel. The outer surface is covered with skin (thin steel plate) and thermal insulation material, which is convenient for design, manufacture and installation. The structural design is in a layered form, each piece consisting of a number of main beams of the frame type, and the pieces are connected by a beam. The dust reduction efficiency of the bag filter is related to the properties of the filter bag, the filtration speed, the dust concentration of the gas and the continuous running time. These factors are related and interact with each other. Therefore, the design of the bag filter is selected. The parameters should be thoroughly analyzed and comprehensively considered. When the dust removal fitting parameters such as the wind pressure and air volume of the fan matched with the bag filter will directly affect the dust removal effect, they should also be considered together in the design and use process. With the deepening of the theoretical and technical research of bag filter, such as design parameters, filtration mechanism, filter material performance, equipment structure and cleaning method, the production of bag filter in the paper industry and environmental protection Lieutenant will play a bigger role.
In addition to the actual design requirements of the engineering and the main structural design of the electrostatic precipitator, the electrostatic dust removal equipment mainly investigates the structural strength, structural stability and the maximum displacement of the main beam of the suspended cathode plate. For the local area, the fatigue damage of the joint between the cathode plate and the main beam under long-term cyclical impact is mainly investigated; the optimal frequency selection of soot falling off on the cathode plate; the surface skin (thin plate) and the primary and secondary beams under wind load The best choice of connections and the stiffness between them and so on.