SU1024604A1 - Method of cleaning airlift - Google Patents

Abstract

A method of cleaning the airlift by supplying compressed air to the mixer with the formation of a filtration flow on a riser pipe, 6 tons, in order to increase the cleaning efficiency, the air supply is pulsed, the filtration flow is measured and the pulse size is adjusted.

Description

The invention relates to a pump engineering industry, in particular, to airlift cleaning method / and can be used in the design and operation of airlift, Designed for working in agriculture, and for agricultural construction. A known method of cleaning airlift by supplying water to the zone of formation of a sludge plug for grinding .-. Its closest to the invention is a method of cleaning the airlift by supplying compressed air to the mixer with images of filtration flow in the lifting pipe 23. A disadvantage of the known methods is also the low cleaning efficiency of the airlift. The goal of the invention is to increase the cleaning efficiency. This goal is achieved by the fact that according to the method of cleaning the elevator by supplying compressed air to the mixer with the formation of a filtration flow in the riser, the air is supplied by pulses, the filtration flow is measured and the pulse flow is adjusted according to it. . A compressed air impulse is supplied to the airlift mixer / due to which there is a discharge of water located. C. in his riser. In this case, the pressure in the air duct drops to the value determined by losses, the pressure on the passage of compressed air through the riser. Then the air supply to the mixer is reduced. Due to the pressure drop on the solid material layer, equal to the airlift submergence, a filtration flow flows through the solid material layers, washing it away and filling the riser. As the lifting pipe is filled, the pressure drop across the layer of solid material decreases. After reducing the filtration flow (as evidenced by the cessation of pressure growth in the duct), a pulse of compressed air is again supplied to the airlift mixer. If, after ejection of water with a diffuse solid material, the pressure in the air duct drops, then the air flow to the mixer is again reduced, producing compressed air in pulses with such alternation of modes until the airlift is completely cleaned and the working pressure in the air duct is established. As it shows, three or four alternations are enough to clear the airlift. If, after stopping the supply of compressed air to the mixer, the pressure in the air duct does not increase, i.e. the filtration flow is insignificant / then water from an external source is supplied to the riser. After that, a pulse of compressed air ejects water from the riser /, and then again stops the supply of compressed air, and so on. Thus, due to pauses in the supply of compressed air to the airlift /, there is an increase in pressure drop across the layer of solid material and, as a result, the efficiency of the filtration flow and the cleaning efficiency increase. In addition, the water supply to the riser and the compressed air supply to the pulses provide pressure fluctuations in the mixer and effective scouring of the upper layer of solid material in the suction pipe of the lift.

Claims (1)

METHOD FOR CLEANING AERLIFT by supplying compressed air to the mixer with the formation of a filtration stream in a lift pipe, which consists in the fact that, in order to increase the cleaning efficiency, the air supply is carried out by pulses, the filtration flow is measured and the pulse value is corrected by it. > ί