SU1263320A1 - Foam generator - Google Patents

Abstract

The invention relates to the field of gas absorption and the separation of dispersed particles from gases using a liquid as a separating agent and improves the efficiency of the cleaning process. The foam apparatus comprises a housing 1, into which a gas is supplied through the nozzle 2, which forms a foam layer on the grille 6. In order to ensure uniform gas distribution over the cross section of the apparatus, a guide plate 7 is hinged under the grill. Sensors 9 and 10 measure the gas content in the foam layer. In controller 11, the signals are compared and, due to the mismatch, the actuator 12 is affected by changing the position of the plate and, accordingly, the ratio of the volumes of gas flows passing through different zones of the foam layer 1 sludge. F (L Yu GS SO WITH KZ I.JL

Description

The invention relates to the absorption of gases and the separation of dispersed particles from gases using a liquid as a separating agent and can find application in the chemical, metallurgical and other sectors of the economy.

The aim of the invention is to increase the efficiency of gas purification.

The drawing shows a foam apparatus, General view.

The device includes a housing Ϊ, partially f filled with liquid inlet 2 and outlet 3 nozzles for gas, a nozzle for the introduction of irrigation fluid 4 and a discharge pipe for sludge 5, a gas distribution grid 6.

The casing of the apparatus is equipped with a guide plate 7, mounted under the gas distribution grid 1, attached to it by a hinge 8, a gas sensor 9 of the foam layer in the gas inlet zone to the grate and a gas sensor 10 in the peripheral zone of the foam layer, the regulator 11 and the drive 12 movable plates ^z .

The device operates as follows.

The gas to be cleaned through the pipe 2 enters the apparatus body under the gas distribution grid 6, displacing a certain volume of liquid onto the grid 25. The fluid is supported by gas and is carried upward, while the circulation of the gas-liquid mixture is ensured, as a result of which a stable foam regime is formed.

The sensor 9 measures the gas content 3 'in the foam layer in the zone of gas inlet under the gas distribution grid. The gas content signal is supplied as a reference to the regulator. The sensor 10 measures the amount of gas in the peripheral zone of the foam layer. The signal is given in 3, as a variable on the regulator. In the controller, the signal of the variable is compared with the reference signal and, according to the size of the mismatch, the actuator is affected, which changes the position of the articulated plate.

The guide plate has a drive 12 outside the apparatus. The plate drive changes its position relative to the gas distribution grill depending on the gas content of the foam layer in different areas of the apparatus.

The supply of the apparatus body with a guide plate mounted under the gas distribution grill allows you to evenly distribute the gas flow over the entire cross-section of the grate, thereby ensuring the active operation of the entire surface of the grating and increasing the efficiency of the gas purification process.

Installing a guide plate under the gas distribution grill allows you to work in a stable foam mode, with a wider range of gas velocity changes in the full cross section of the apparatus, with its uniform distribution over the gas distribution grill cross section.

Claims (1)

The invention relates to the absorption of gases and the separation of dispersed particles from gases using a liquid as a ush unit, its agent, and may be used in chemical, metallurgical and other sectors of the national economy. The aim of the invention is to increase the efficiency of gas cleaning. The drawing shows a foam apnarate, general view. The device comprises a housing i partially filled with a liquid inlet 2 and outlet 3 gas nozzles, a nozzle for introducing irrigating liquid 4 and a discharge pipe for sludge 5, a gas distribution grid 6. The apparatus body is equipped with a guide plate 7 installed under the gas distribution grid attached to it by the hinge 8, the gas content sensor 9 of the foam layer in the gas inlet zone to the grid and the gas content sensor 10 in the peripheral zone of the foam layer, the regulator 11 and the actuator 12 of the movable plate. The device works as follows. The gas to be purified through the pipe 2 enters the body of the apparatus under the gas distribution grid 6, and a certain volume of liquid flows out onto the grid. The fluid is supported by gas and entrained upward, while the gas-liquid-mixture mixture is circulated, resulting in a stable foam regime. The sensor 9 measures the gas content in the foam. The layer in the gas inlet zone under the gas distribution grid. The signal for the gas content is given as a reference to the controller. The sensor 10 measures the gas content in the peri-serial zone of the valuable layer. The signal is applied as a variable on the controller. In the controller, the variable signal is compared with the reference signal and the magnitude of the matching signal influences the actuator that changes the position of the sharply fixed plate. The guide plate has a drive 12 outside the apparatus. The drive of the plate changes its position relative to the gas distribution grid, depending on the gas content of the foam layer in different zones of the apparatus. The supply of the housing of the apparatus with a guide plate installed under the gas distribution grid allows the gas flow to be evenly distributed over the entire cross section of the grid, thereby ensuring active operation of the entire surface of the grid and increasing the efficiency of the gas cleaning process. Installing a guide plate under the gas distribution grid allows operation in a stable foam mode, with a wider range of gas velocity variations in the full cross section of the apparatus, with its uniform distribution over the cross section of the gas distribution grid. Claims of the Invention An electronic apparatus comprising a body partially filled with a liquid, an inlet and an outlet for gas, nozzles for introducing a liquid and sludge discharge, a gas distribution grid, a plate placed under the rennet, characterized in that, in order to improve the efficiency, the gas cleaning the plate is attached to the re; petke by means of a hinge, and the apparatus is equipped with foam-gas sensors located in the zone adjacent to the inlet and in the opposite zone and with a regulator whose entrance is connected from the sensor, and the output is through a drive with a pin.