The energy saving potential and control method of electrostatic precipitator(ESP) are discussed and the main cause of over energy expenditure what is back corona and re-entrainment is pointed out.

The phenomena of back corona and corona obstruction often take place in electric precipitators of coal-fired power plants and lead to low dust removal efficiency.

It is necessary to study the regularity of the back corona which is one of the chief hitches in operation of electrostatic precipitator.

This device has advantages of effectively eliminating the damage of discorona,increasing the dust removal efficiency and lowering electrical energy consumption at large amplitude.

The discorona and re-entrain dust are two key issues to improve the efficiency of the electric precipitator.

The discorona and re-entrain dust are two key iss ues to improve the efficiency of the electric precipitator.

In addition,as the existence of anti-electric-corona,if blindly or with previous experience setting up high-voltage control parameters of electric field,it would only increase electricity consumption of electric precipitator.

Using the model a nonstationary anti-electric-corona discharge signal is modeled.

The decomposition of trichloroethylene (TCE) in a wire-in-tube pulsed corona reactor was experimentally investigated.

It is necessary to determine charged dust layer thickness at back corona breakdown point in electrostatic precipitation in order to select rapping periodicity reasonably.