UA136230U - METHOD OF CLEANING WET VENTILATION GASES - Google Patents

Abstract

The method of cleaning wet ventilation gases includes removing wet ventilation gases from a dust source, mixing the cleaning gas with the adsorbent and directing the gas for cleaning. Quicklime is used as the adsorbent, and the cleaning gas is sent for cleaning to the bag filter, while the quicklime is sprayed into the gas stream of the cleaning gas in the flue in front of the bag filter.

Description

A useful model belongs to the cleaning of gases from dust and can be used to clean wet ventilation gases.

The closest in terms of characteristics to the claimed method is the method chosen as the closest analogue for the purification of gaseous emissions (Authority of the USSR Mo 1820857, IPC

VO1TO 53/18, publ. 12.10.92.

The known method involves the removal of wet ventilation gases from the dust source, mixing of the gas being cleaned with a liquid adsorbent in a vortex flow, directing the gas to cleaning and its separation with subsequent regeneration of the adsorbent. At the same time, the gas stream being cleaned is divided into separate jets by height before mixing, and an adsorbent is injected into each jet, which after separation is collected and regenerated using a special device, and then returned to gas cleaning.

The useful model and the analogue coincide in the following essential features - such as the selection of wet ventilation gases from the dust source, the mixing of the gas being cleaned with the adsorbent and the direction of the gas for cleaning.

The analysis of the technical properties of the analogue, determined by its features, shows that the following reasons prevent the obtaining of the expected technical result when using the analogue: mixing the gas being cleaned with a liquid adsorbent in a vortex flow with wet ventilation emissions leads to the formation of liquid sludge and significantly increases energy costs.

The basis of the useful model is the task of creating such a method of cleaning wet ventilation gases, in which improvement through the introduction of new operations will allow, when using the claimed object, to ensure the achievement of a technical result, which consists in increasing the efficiency of cleaning wet ventilation gases.

The task is solved by the fact that the method of cleaning wet ventilation gases includes the removal of wet ventilation gases from the dust source, mixing the cleaning gas with an adsorbent and directing the gas to cleaning. Quicklime is used as an adsorbent, and the cleaning gas is sent to the bag filter for cleaning, while the quicklime is sprayed into the gas stream of the cleaning gas in the gas duct before the bag filter.

In some cases, the claimed method differs in that quicklime is sprinkled on the sleeves of the bag filter before the removal of moist ventilation gases from the dust source.

When using the claimed method, a technical result is achieved, which consists in increasing the efficiency of cleaning wet ventilation gases without the formation of liquid sludge.

There is such a cause-and-effect relationship between the set of essential features of the claimed method and the technical result achieved. The use of wet ventilation gases as an adsorbent of quicklime during cleaning, directing the gas for cleaning into the bag filter, while the quicklime is sprayed into the gas flow of the gas being cleaned in the gas duct in front of the bag filter, ensures drying of the ventilation gases before the bag filter. At the same time, quicklime in the gas stream and what settled on the sleeves of the bag filter acts as an adsorbent, while there are no liquid sludges, a high degree of purification is achieved with relatively low energy consumption.

The essence of the claimed method of cleaning wet ventilation gases is explained by graphic material, which schematically shows the technological scheme of the device for cleaning wet ventilation gases.

The following designations are used in the diagram: 1 - sleeve filter; 2 - fan;

C - gas pipe; 4 - pollination source; 5 - a means of supplying the adsorbent.

In a specific example, the method of cleaning wet ventilation gases is implemented during the operation of the device for cleaning wet ventilation gases. The device for cleaning wet ventilation gases contains a bag filter 1 and a fan 2 connected in series. The inlet of the bag filter 1 is connected to the dust source 4 by the gas duct C. The adsorbent supply device 5 is installed on the gas duct C.

In a specific example, the claimed method of cleaning wet ventilation gases is implemented as follows. In the process of implementing the method, quicklime with a Ca content of at least 90 95 is used as an adsorbent. Moist ventilation gases are taken from the dust source 4 by the fan 2 and sent to the bag filter 1 for cleaning. the stream of wet ventilation gas being cleaned is sprayed with quicklime at a stoichiometric excess of 1 to 10.

At the same time, the process of drying wet ventilation gas begins by chemically binding moisture with quicklime. The process of drying the gas being cleaned continues in the bag filter 1 when the gas is filtered through quicklime that has settled on the bags of the bag filter. Thus, the sleeves of the sleeve filter 1 serve as the basis for holding the adsorbent and provide on their surface the necessary contact surface of the adsorbent and the moist ventilation gas being cleaned.

The adsorbent caught together with the dust can be sent for further use in production, and also partially supplied to the means for supplying the adsorbent 5 for reuse. To compensate for the reacted lime, fresh quicklime is periodically supplied to the adsorbent supply means 5. The thickness of the adsorbent layer on the bag filter 1 is regulated by the resistance of the bag filter. The maximum thickness of the adsorbent layer on the bag filter 1 before its cleaning is up to 5 mm.

In some cases, in order to protect the bag filter 1 from condensing moisture, quicklime is preliminarily sprayed onto the bag filter 1 sleeves using a fan 2 from the adsorbent supply means 5 before the removal of moist ventilation gases from the dust source 4. The thickness of the pre-sprayed adsorbent layer is 0.1-5 mm.

The use of the claimed method in the purification of wet ventilation gases allows to ensure residual dust content of 5-20 mg/m3 without the formation of liquid sludge.

Claims (2)

USEFUL MODEL FORMULA 1. A method of cleaning wet ventilation gases, which includes removing wet ventilation gases from the dust source, mixing the cleaning gas with an adsorbent and directing the gas to cleaning, which differs in that quicklime is used as an adsorbent, and the cleaning gas is directed for cleaning in the bag filter, while the quicklime is sprayed into the gas stream of the cleaning gas in the gas duct in front of the bag filter. 2. The method according to claim 1, which is distinguished by the fact that before the beginning of the removal of moist ventilation gases from the dust source, quicklime is sprinkled on the sleeves of the bag filter. 2-7 2 h g yad ' y, lam SH AHA or ---TE t . "y y : is U em u SHIA Y