SU1662636A1 - Method of control of wet dust separator - Google Patents

Abstract

This invention relates to methods for cleaning gases in wet scrubber (e.g., scrubbers). The application of the invention allows to increase the degree of gas purification in the dust collector. The control method involves measuring the temperature of sludge water and purified gas and regulating the water supply to irrigate the dust collector depending on the difference in measured temperatures. The sludge water is divided into more or less polluted water, the latter is mixed with fresh water and fed to a dust collector for irrigation. 1 il.

Description

The invention relates to methods for controlling wet scrubbers and can be used in the purification of gases in the chemical, metallurgical and other industries.

The purpose of the invention is to increase the efficiency of gas cleaning.

 The drawing shows a schematic diagram of a system for implementing a method for controlling a wet dust collector.

The method of controlling a wet dust collector is carried out as follows.

The gas to be purified is fed to a wet dust collector 1, where it is cleaned using water supplied to it. Sludge water from the dust collector 1 is continuously fed to the divider 2 (for example, a hydrocyclone), where it is divided into more and less polluted. The more polluted part is fed to the sump 3 and pump 4 is pumped out for processing. The less polluted part is fed to the sump 5, where it is mixed with fresh water and the centrifugal pump 6 is fed back to the dust collector 1

A level 7 sensor continuously monitors the pulp level in the sump 5 The output signal of the sensor 7 is continuously fed to the input of the fresh water supply controller 8, where it is compared to the installation. When there is a mismatch, the control signal from the output of the regulator 8 goes to the actuator 9, which changes the position of the throttle valve 10. thus regulate the flow of fresh water in the sump 5

The temperature sensors 11 and 12 continuously monitor the temperature in the sump sludge water 3 and in the purified gas, respectively. Signals go to the first and second inputs of the subtraction unit 13, which calculates the difference between the received signals. From the output of the subtraction unit 13, the resulting subtraction signal goes to the input of the regulator 14 changes the speed of rotation of the pump 6, where it is compared with the task. When the error is misaligned, the control signal from the output of the regulator 14 is fed to the automatic regulated drive 15

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the motor of the centrifugal pump 6, which changes its speed of rotation, thus changing the pressure and flow rate of water supplied to the dust collector 1,

When the temperature difference is stabilized, which indirectly takes into account the regulated proportion of the gas being purified - the liquid for its purification, the heat exchange in the dust collector 1 is stabilized, which can be seen from the heat balance equation

V1 / J1 CiTl + V2 / 92C2T2

 Uzrz Sz Tz 4- V4p4 C4 TA,

where Vi - V4 are, respectively, the volumes of gas entering the purification, water for its purification, as well as purified gas and sludge water;

p1 - 04, Ci - C2, respectively, density - U1 and 4, specific heat capacities and temperatures of the above products. When the flow rate of the water supplied by the pump 6 changes due to the level stabilization circuit (level sensor 7 - controller 8, actuator 9 - throttle valve 10) the water level in the sump 5 is stabilized and the operating conditions of the pump 6 are maintained.

When changing the parameters of the input gas cleaning products (for example, temperature), the system provides for automatic correction of the setpoint of the regulator 14 (signal a).

Claims (1)

The invention The method of controlling a wet dust collector by changing the flow rate of water supplied to its irrigation, depending on the temperature of the purified gas, which is also distinguished by the fact that, in order to increase the gas cleaning efficiency, the slurry water is additionally divided into more and less polluted, more polluted water for treatment, less contaminated - for mixing with fresh water, followed by supplying a dust collector for irrigation, while measuring the temperature of the sludge water and adjusting the water consumption for irrigating the dust collector depending on the difference in measured temperatures. Purified eaj Gas Water Slime water Dodo work Fresh water