RU2181074C1 - Horizontal electric filter ( variants ) - Google Patents

Abstract

FIELD: electrical cleaning of gases used in thermoelectric plants, cement industry. SUBSTANCE: given horizontal filter comprises several fields which include insulators for suspension of corona-forming electrodes. According to first variant insulators for suspension of corona- forming electrodes are installed in the form of trapezium in each field of electric filter. In correspondence with second variant insulators for suspension of corona-forming electrodes are positioned in the form of rectangle in first field in pass of gas and in the form of trapezium in following fields of electric filter. EFFECT: improved degree of gas cleaning thanks to reduced interfield intervals. 2 cl, 3 dwg

Description

 The invention relates to devices for electrical gas purification and can be used in thermal power plants, in cement and other industries.

 Closest to the proposed one is a horizontal electrostatic precipitator, consisting of several fields, in which insulators for hanging the corona electrodes are mounted in the form of a rectangle in each field of the electrostatic precipitator (Levitov V.I., Reshidov I.K., Tkachenko V.M. et al. Dymovy electrostatic precipitators. M: Energy, 1980, p. 308).

 The disadvantage of this design is that the active length of the electrostatic precipitator is limited due to the increased inter-field gaps. This leads to a decrease in the residence time of the gas in the apparatus and reduces the degree of gas purification.

 The objective of the proposed technical solution is to provide an increase in the degree of gas purification in the same electrostatic precipitator housing.

 The problem is solved by achieving a technical result, which consists in increasing the active length of the electrostatic precipitator and, as a result, increasing the degree of gas purification in it by reducing the inter-field gaps.

 The technical result is achieved by two options for the constructive implementation of the proposed solution.

 In the first embodiment, the solution in a horizontal electrostatic precipitator consisting of several fields, including insulators for hanging the corona electrodes, according to the invention, insulators for suspending the corona electrodes are installed in the form of a trapezoid in each field of the electrostatic precipitator.

 In the second embodiment, the solution in a horizontal electrostatic precipitator consisting of several fields, including insulators for hanging the corona electrodes, according to the invention, insulators for suspending the corona electrodes are mounted in the form of a rectangle in the first field along the gas and trapezoid in the subsequent fields of the electrostatic precipitator.

 In both cases, the same decrease in all the interfield fields is achieved, i.e., the active length of the electrostatic precipitator increases by the same amount.

 When installing insulators for suspending corona electrodes in the form of a trapezoid in each hearth of an electrostatic precipitator, a reduction in the inter-field gap is achieved due to the fact that the distance between the supporting insulators at the input of each field is reduced and this makes it possible to bring the fields closer together. As a result, it is possible to increase the active length of the precipitation and corona electrodes in each field while maintaining the overall dimensions of the electrostatic precipitator. Moreover, the suspension nodes of the corona electrodes are the same in all fields, i.e. unified for manufacturing.

 When installing insulators for hanging corona electrodes in the form of a rectangle in the first field along the gas and trapezoid in the subsequent fields of the electrostatic precipitator, the overall reduction in the inter-field gaps is the same as in the first embodiment, i.e. the same active length of the electrostatic precipitator. In this embodiment, the supporting insulators of the corona electrodes at the inlet and outlet of the first field are installed at an equal distance from each other, which contributes to a more uniform distribution of gas over the cross section of the electrostatic precipitator.

 Figure 1 shows a horizontal electrostatic precipitator, consisting of several fields (three), a longitudinal section.

 Figure 2 shows a view A - the first option, figure 1.

 Figure 3 shows a view A - the second option, figure 1.

 In the first version of the solution (figures 1 and 2), a horizontal electrostatic precipitator is made as follows.

 The electrostatic precipitator contains insulators 1, corona electrodes 2, hammers 3 for shaking the corona electrodes 2, anvil 4, sedimentation electrodes 5 and the hopper 6. Insulators 1 for suspension of the corona electrodes 2 are installed in the form of a trapezoid in each field of the electrostatic precipitator (figure 2).

 The electrostatic precipitator works as follows.

 The gas to be cleaned in the horizontal direction passes through the electric fields (three fields in FIG. 1) of the electrostatic precipitator. Under the influence of an electric field, charged particles are deposited on the corona 2 and precipitation 5 electrodes. The electrodes 2 and 5 are periodically shaken by hammers 3 and the trapped dust enters the hopper 6 of the electrostatic precipitator.

 Another option of the proposed horizontal electrostatic precipitator is made similar to the previous one, with the only difference being that in the first field along the gas, insulators 1 for suspension of the corona electrodes 2 are installed in the form of a rectangle, in subsequent fields - in the form of a trapezoid (Fig. 3).

 The electrostatic precipitator works similarly to the previous one.

 Thus, the proposed technical solution in both versions compared with the prototype allows for a given overall dimensions of a horizontal electrostatic precipitator to increase the active length of the electrostatic precipitator, for example, in a 3-pole electrostatic precipitator by 11%, while ensuring an increase in the degree of gas purification up to 98.7% ( 98% in the prototype), i.e. reduce dust emission from the apparatus by 1.5 times. In the case of using a 4-pole electrostatic precipitator, the increase in active length will be 12.5%, and the degree of gas purification will increase to 99.7% (in the prototype 99.5%), i.e. dust emission from the apparatus will be reduced by 1.7 times.

 At the indicated increase in the active length of the electrostatic precipitator, the inter-field gaps allow the electrode shaking mechanism to be serviced.

Claims (2)

 1. A horizontal electrostatic precipitator consisting of several fields, including insulators for hanging the corona electrodes, characterized in that the insulators for hanging the corona electrodes are installed in the form of a trapezoid in each field of the electrostatic precipitator.  2. A horizontal electrostatic precipitator consisting of several fields, including insulators for suspending the corona electrodes, characterized in that the insulators for suspending the corona electrodes are installed in the form of a rectangle in the first field along the gas and trapezoid in the subsequent fields of the electrostatic precipitator.

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