SU874195A1 - Method of filtering gas or fluid - Google Patents

Description

(54) METHOD FOR CLEANING GAS OR LIQUID

Claims (2)

one / . . This invention relates to a technique for cleaning dielectric impurities of a pressurized gas or liquid. A known method is used to purify a gas or liquid based on passing the medium to be cleaned through an electric field created between the charging and trapping electrodes p. . However, this method is unacceptable for cleaning gas or liquid under high pressure, since it requires considerable active volumes for its realization, which is formed by two systems of plate electrodes. Under conditions of working with a gas under high pressure, a massive increase in the volumes of auxiliary devices entails inevitable energy losses due to compression of the medium to fill these volumes. There is also known a method of electric processing of soldered air, including dividing it into several streams, and telling them the time | Charges Further, the flows are connected and this ensures the mutual attraction of the filtered particles. 2 The disadvantage of the known method is that splitting one stream into several streams, communicating each stream of electric charge and connecting the streams together requires separate devices for its implementation, and the entire cleaning device in the assembly becomes unacceptable for cleaning gas 10 under high pressure because of its considerable dimensions A when working with a medium under high pressure, an increase in intermediate volumes inevitably leads to additional energy costs for the production of compressed media to fill these volumes. On the other hand, delays in cleaning devices based on the above methods from precipitated impurities entail the entrainment of these impurities with gas or liquid streams. The purpose of the invention is to improve the efficiency of gas or liquid purification and improve the weight and size characteristics of devices for its implementation. The goal is achieved by the fact that a stream of gas or liquid that passes through an electric field between i corona and collecting electrodes are additionally passed through the electric field running relative to the positive electrode, directed towards the flow of gas or liquid, and the speed of the running floor is set with the speed of the flow of gas or liquid. The drawing shows the scheme of implementation of the method of purification of gas or liquid. Flow 1. Of a pump or liquid passes through an electric field between the corona-forming electrode 2 and the cooling electrode 3. Additionally, the flow 1 passes through a running electric field formed between the running field electrodes 4 and the collecting electrode 3. The running electric field is directed towards the flow 1. Running electric field Impacting the interrupted impurities, returns them to the zone of the precipitation electrode 3, where they are disposed of using known methods. The implementation of the proposed method will save 86 kW / h with each cleaning (blowing) of the device. In addition, the proposed method provides an increase in the time between the next cleaning of the device, and with equal cleaning time - an increase of 4-0 nor the purification of gas or liquid from impurities. invention formula 5 1. A method of cleaning a gas or liquid, including the treatment of a gas or liquid by an electric field created between the corona and collecting electrode 11 ", and characterized in that, in order to increase the cleaning efficiency and improve the mass-dimensional characteristics of devices for its implementation, gas or liquid additionally pass 5 through the electric field running relative to the precipitation electrode,. directed towards the flow of gas or liquid. 2. A method according to claim 1, characterized in that the speed of the traveling electric field is set in excess of the speed of the flow of gas or liquid. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 503095, F 24 F 3/16, 1971. 2. USSR author's certificate number 623583, cl. At 03 C 3/08, 1977 (prototype). +0.0.0