UA9623U - Method of removal of fine dispersed particles from hot gases - Google Patents

Abstract

The method of removal of fine dispersed particles from hot gases includes the irrigation of gas by liquid. In this case the irrigation is achieved in the scrubber chamber with bucket-like sprayers at temperatures, which are higher than the temperature of condensation of liquid.

Description

Description of the invention

The useful model refers to methods of general purpose, in particular to the separation of dispersed 2 particles from gases using a liquid as a separating agent, for example, sprayed water in apparatuses with rotating devices and can be used in energy, metallurgy, chemical and other related industries.

There is a known method of cleaning gases from finely dispersed solid particles, which includes irrigation of the gas with a liquid

Kuznetsov I.E., Troitskaya T.M. Protection of the air pool from pollution by harmful chemical substances of 70 enterprises. - M.: Chemistry, 1979. - P. 255). Supply of irrigation liquid is carried out through nozzles in the apparatus with tangential gas injection at temperatures not exceeding the liquid condensation temperature

But the degree of gas purification is insufficient (90...95905). In addition, to achieve a satisfactory degree of cleaning, a significant flow of liquid is required due to the short contact time of the particles of the sprayed liquid with the gas.

As a result, the concentration of solid particles in the liquid leaving the device is low, which makes it difficult to separate them from the liquid. Nozzles have a high hydraulic resistance behind the liquid, accordingly, additional energy costs are required to overcome it, and they work effectively only in a fairly narrow range of liquid flow rates.

High consumption of liquid for irrigation and short contact time between liquid and gas due to one-time dispersion lead to the fact that the exergy values of gas and liquid are insignificant, that is, gas and liquid with relatively low temperatures are obtained, which makes it difficult to effectively recover thermal energy.

The useful model is based on the task of creating such a method of cleaning hot gases from fine particles by liquid irrigation, in which changing the method of spraying the liquid and ensuring the temperature regime of the cleaning process would make it possible to increase the degree of gas purification from fine solid particles, reduce energy consumption for spraying, facilitate separation of trapped solid particles from the irrigation fluid, reduce irrigation fluid consumption and, most importantly, ensure a high exergy value 29 for the gas. shsh

The task is solved by the fact that in the method of cleaning hot gases from fine particles, which includes irrigation of gas with a liquid, according to a useful model, irrigation is carried out in a scrubber chamber with bucket-shaped sprinklers at temperatures higher than the liquid condensation temperature.

Spraying of liquid in the volume of hot gas is carried out by bucket-shaped sprinklers. This ensures repeated contact of the same volume of liquid with gas, as a result of which a high Ga concentration of solid particles is achieved in it, which facilitates the separation of solid particles. Energy consumption for spraying the liquid in the scrubber with bucket-shaped sprinklers is less than with the help of nozzles. at

The implementation of the process at temperatures higher than the vapor condensation temperature is ensured by such a liquid flow rate, at which only partial evaporation of the liquid occurs, which is sprayed in a volume of 3o hot gas containing finely dispersed solid particles. A drop of liquid heats up in a flow of hot gas.

At the same time, its physical properties change, in particular, the viscosity and surface tension decrease, which contributes to better wetting of finely dispersed solid particles with liquid, their further aggregation and, as a result, "faster and more complete removal from the gas." Part of the liquid from the surface of the drop or its aggregate with a solid particle (U) evaporates - the vapor content in the gas increases. At the same time, in the absence of steam condensation, the temperature of gas 70 decreases, its heat content practically remains constant, and the value of exergy increases, which makes it possible to effectively recover the heat of gases in the future.

From" Example

The claimed method was carried out in a scrubber chamber with bucket-shaped sprinklers, which was irrigated with water. A gas mixture was subjected to purification, which simulates the exhaust gases of titanium oxide calcination furnaces, which with 395 contains 2150 mg/m? fine TiO particles". The degree of gas purification was determined by the filtration method.

The results of the research are given in the table. (22) and

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Claims (1)

The formula of the invention A method of cleaning hot gases from fine particles, which includes irrigation of the gas with a liquid, which is characterized by the fact that the irrigation is carried out in a scrubber chamber with bucket-shaped sprinklers at temperatures higher than the liquid condensation temperature. for the Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 10, 15.10.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - so sch (Se) (22) - with ;" se) (22) ime) syu 070 Su; 60 b5