RU2009114790A - INJECTOR SCRUBBER - Google Patents

Abstract

 1. The nozzle scrubber, comprising a housing, a confuser, an inlet and outlet nozzles, an irrigation system and a hopper, characterized in that the housing is cylindrical, in the lower part of which an inlet pipe with a diameter of d1 is located, the axis of which forms an acute angle with the axis of the cylindrical surface of the housing in the range 30 ÷ 60 °, while the end of the inlet pipe is immersed in a liquid located in a conical hopper equipped with a valve with a counterweight and a flush pipe, and a drain is provided in the hopper to maintain a constant liquid level a channel and a water trap with overflow height K, and a hatch is provided for technical inspection of the scrubber, while an irrigation device of height M is located in the upper part of the scrubber, consisting of at least four irrigation belts with nozzles that create an even stream of finely dispersed drops of liquid moving under by gravity downward, and the lower part of the scrubber, ending in a conical hopper of height L, is filled with water, the level of which is maintained constant, and the water is supplied to the irrigation belts through the collectors, which are located outside the scrubber and are made in the form of annular sections of the pipeline connected to the supply pipelines with control valves, opposite which the washing valves are located, and the nozzles are connected to the collectors radially with a certain step through the pipes by means of damping inserts, and the length of the pipes is chosen so so that the cross section of the scrubber body is completely blocked by nozzle spray torches, the hole diameter of which lies in the optimal range

Claims (2)

1. The nozzle scrubber, comprising a housing, a confuser, an inlet and outlet nozzles, an irrigation system and a hopper, characterized in that the housing is cylindrical, in the lower part of which an inlet pipe with a diameter of d1 is located, the axis of which forms an acute angle with the axis of the cylindrical surface of the housing in the range 30 ÷ 60 °, while the end of the inlet pipe is immersed in a liquid located in a conical hopper equipped with a valve with a counterweight and a flush pipe, and a drain is provided in the hopper to maintain a constant liquid level a channel and a water trap with overflow height K, and a hatch is provided for technical inspection of the scrubber, while an irrigation device of height M is located in the upper part of the scrubber, consisting of at least four irrigation belts with nozzles that create an even stream of finely dispersed drops of liquid moving under by gravity downward, and the lower part of the scrubber, ending in a conical hopper of height L, is filled with water, the level of which is maintained constant, and the water is supplied to the irrigation belts through the collectors, which are located outside the scrubber and are made in the form of annular sections of the pipeline connected to the supply pipelines with control valves, opposite which the washing valves are located, and the nozzles are connected to the collectors radially with a certain step through the pipes by means of damping inserts, and the length of the pipes is chosen so so that the cross section of the scrubber body is completely blocked by spray nozzles, the diameter of the holes of which lies in the optimal range values: 12 ÷ 40 mm, while in each zone of irrigation of the irrigation device, the optimal number of nozzles is 8 ÷ 16, and irrigation is carried out in four zones with the following direction of the nozzle torch: lower belts - up, and upper belts - down. 2. The nozzle scrubber according to claim 1, characterized in that the efficient operation of the nozzle scrubber is carried out with the following optimal ratios of its parameters: the optimal ratio between the height of the scrubber H and its diameter D is in the range of H / D = 2 ÷ 3; the optimal ratio between the height of the scrubber H and the height M of the irrigation device is in the range of values N / M = 0.8 ÷ 1.2; the optimal ratio between the height L of the conical hopper 19 and the height N of the confuser 18 is in the range of L / N = 2 ÷ 3; the optimal ratio between the height L of the conical hopper 19 and the height of the overflow K of the hydraulic lock 4 is in the range of L / K = 2.0 ÷ 4.5; the optimal ratio between the diameter d1 of the inlet pipe 15 and the diameter D of the scrubber is in the range of d1 / D = 0.2 ÷ 0.3; the optimal ratio between the diameter d1 of the inlet pipe 15 and the diameter d2 of the output pipe 16 of the scrubber is in the range of d1 / d2 = 0.8 ÷ 1.4; the optimum size of liquid droplets in the scrubber irrigation device is 0.8 ÷ 1 mm.