RU2179479C2 - Method of control of electric filter operation - Google Patents

Abstract

FIELD: power mechanical engineering; electric filters of thermal power plants. SUBSTANCE: proposed method consists in estimation of efficiency of solid particle flow in lower portion of bin of electric filter; duration of period between shaking the electrodes of electric filter is adjusted by magnitude of gradient of solid particle flow concentration in lower portion of electric filter bin. Solid particles are removed from electric filter bin during shaking of electrodes. EFFECT: simplified construction of system; enhanced efficiency of cleaning flue gases.

Description

 The invention relates to power engineering and can be used in electrostatic precipitators of thermal power plants.

 There is a method of automatically controlling the operation of an electrostatic precipitator, in which threshold values of a pause between shaking off the electrostatic precipitator electrodes are generated by an averaged signal from the dust meter (see British Patent 122817, CL 03 03/76, 1969).

 The disadvantage of this method is the sufficiently large time intervals required to optimize the cleaning mode of the electrodes, and, therefore, the inertia of the control operation, reducing the degree of purification of flue gases from dust.

 There is a method of regulating the operation of an electrostatic precipitator, in which the efficiency of collecting particulate matter by an electrostatic precipitator is determined by the weight of the electrode, by which the duration and frequency of shaking of the electrodes are regulated (see A.S. USSR 1816504, class B 03 S 3/68, 1981).

 However, this solution has a drawback - the ambiguity of the controlled parameter (the amount of solid particles deposited on the electrode) from the electrical conductivity of the solid particles. Depending on the type of coal burned, the electrical conductivity of the ash changes, which also determines the change in the efficiency of deposition of the latter on the electrostatic precipitator electrodes. Therefore, for each type of coal, it is necessary to select the value of the maximum weight of the electrode with ash and set the corresponding value of the controlled parameter that determines the operation of the shaking elements. In addition, ash removal is carried out continuously during the operation of the electrostatic precipitator, which increases energy consumption.

 The closest analogue of the claimed invention is a method of regulating the operation of an electrostatic precipitator, which consists in determining the efficiency of collecting particulate matter, by its value regulating the length of the period between shaking the electrostatic precipitator electrodes and removing solid particles from the electrostatic precipitator hopper during the period of electrostatic shaking (see A.S. USSR 15588440, C. B 03 C 3/68, 1990).

 The disadvantage of this method is to regulate the work only when filling a limited volume of the hopper, and not when the flow of ash through the level gauge.

 The objective of the invention is to overcome this drawback.

 The technical result is achieved by the fact that in the method of regulating the operation of the electrostatic precipitator, which consists in determining the efficiency of collecting particulate matter, its value regulating the length of the period between shaking the electrostatic precipitator electrodes and removing solid particles from the hopper of the electrostatic precipitator during the period of shaking the electrodes, according to the invention for determining the efficiency of trapping solid particles carry out the measurement of the concentration gradient of the flows of solid particles through the hopper of the electrostatic precipitator, and the duration l the period between the shaking of the electrostatic precipitator electrodes and determine the start time of the shaking cycle and the length of the period between the cycles of shaking the electrostatic electrodes.

 In the method of controlling the operation of the electrostatic precipitator, the efficiency of the capture of solid particles is determined by the gradient of the concentration of the flow of solid particles flowing through the lower part of the hopper into the ash removal system. With an increase in the dust capacity of the electrode (ash mass per unit surface of the electrode) to a limit value causing self-collapse of the deposited ash layer, it is possible to increase the period (cycle) between shaking of the electrodes. An increase in the dust capacity of the electrodes to the limit value is characterized by the expiration of ash portions through the hopper (hopper estrus), the flow of which is characterized by a high gradient in the change in its concentration.

 In other words, the determination of the efficiency of collecting particulate matter is carried out by the direct method by the maximum dust absorption of the electrode, when the beginning of the self-collapse of the deposited ash layer determines its passage through the lower part of the hopper into the ash removal system. In the lower part of the hopper, a concentration gradient of the flow of solid particles is measured.

 In the mode of enrichment (deposition) of ash on the electrodes, portions of ash with a minimal change in the concentration gradient (insignificant weight) can enter the hopper (in case of accidental separation from the electrode). After reaching the dust absorption value of the electrode, corresponding to 0.8-0.9 of the maximum level, ash aggregates self-collapse from the electrodes, the flow of which in the lower part of the hopper has a high concentration gradient.

 By measuring the value of the concentration (gradient), for example, with a level switch, the level gauge determines the start time of the shaking cycle of the electrostatic precipitator electrodes and, therefore, the length of the period between the cycles of shaking the electrodes.

 The duration of the shaking cycle is determined by the characteristics of the output part of the hopper (estrus) - the passage time of the ash aggregate discharged by shaking one electrode, as well as the number of shaken electrodes. The duration of the shaking cycle can be set with a timer. After shaking for each electrode begins the period (mode) of accumulation - deposition of ash on the electrode.

 To reduce energy consumption, ash removal from the hopper is carried out only during the shaking cycle of the electrostatic precipitator electrodes, for example, through a timer forming a shaking cycle by turning on the air or water valve.

 Thus, when using the proposed method, it is possible to significantly simplify the design of the control system, increase the degree of purification of flue gases and reduce energy costs.

Claims (1)

 The method of regulating the operation of the electrostatic precipitator, which consists in determining the efficiency of collecting particulate matter, adjusting by its value the length of the period between shaking the electrodes and removing solid particles from the hopper of the electrostatic precipitator during the period of shaking the electrodes, characterized in that to measure the efficiency of trapping of solid particles, the concentration gradient of the solid flow is measured particles through the hopper of the electrostatic precipitator and determine the start time of the shaking cycle and the duration of the period between shaking electrodes of electrostatic precipitator electrodes.