SU781401A1 - Airlift plant - Google Patents

Description

The invention relates to pump engineering, in particular to the design of airlift systems for lifting liquids with solid inclusions, and can be used in the design of hydraulic systems of building materials.

Known airlift installation containing a mixing chamber with a suction pipe connected with a lifting pipe and duct [1].

The disadvantage of this installation is the difficulty of lifting the slurry along inclined workings.

Closest to the invention, 15 is an airlift installation comprising a mixer with a suction pipe in communication with an inclined lift pipe and an inclined air duct (2].

The disadvantage of this design is the high hydraulic losses in the suction pipe and mixer.

The purpose of the invention is to reduce hydraulic losses in the suction pipe and mixer.

This goal is achieved by the fact that the suction pipe and mixer are installed vertically. At -30, the axis of the mixer and the riser pipe are located at an angle of at least 100® to each other.

The drawing schematically shows an airlift installation, side view

The airlift installation contains a mixer 1 with a suction pipe 2, in communication with an inclined lifting pipe 3 and an inclined air duct 4, the suction pipe and mixer being installed vertically, and the angle <£ between the axis of the latter and the axis of the lifting pipe is at least 100®. At the end lift pipe 3 posted by air separator 5..

Airlift installation works as follows.

Compressed air through the air duct 4 is supplied to the mixer 1, which serves to mix the hydraulic mixture with compressed air before entering the (lifting pipe 3. Due to the difference in weight of the columns of the air-water mixture in the lifting pipe and the liquid in the pumped-out tank, the hydraulic mixture is sucked through the suction pipe 2, which through a mixer 1, it is fed into an inclined lifting pipe 3, at the end of which an air separator 5 is located, which is used to separate water from the air, while the air leaves the air separator 5 into the atmosphere and the water sent to the drain pipe air separator.

Due to the vertical arrangement of the suction device and the mixer, the suction conditions are improved; provides complete mixing of compressed air with hydraulic mixture in the mixer; there is no delamination of water from air in the mixer; local wear of the riser pipe and mixer is reduced, which ensures stable operation of the air-lift installation when the angle of inclination of the riser pipe changes in the range from 100 to 180 ° with respect to the suction pipe and mixer.

The use of the invention extends the scope of airlift.

Claims (2)

At the end of which there is an air separator 5 designed to separate water from air. In this case, the air escapes from the air separator 5 into the atmosphere, and the water is directed to the drain pipe of the air separator. Due to the vertical arrangement of the BcacHBaioniero device and mixer, it improves the intake conditions; complete mixing of compressed air with the slurry in the mixer is ensured; water does not separate from the air in the mixer; local wear of the lifting pipe and the mixer is reduced, which ensures the stable operation of the air-lift unit when the angle of inclination of the lifting pipe is changed in the range from 100 to 180 relative to the suction pipe and the mixer. The use of the invention expands the scope of the airlift. Claim 1. Erlift installation containing a mixer with a suction pipe V house communicated with a sloping riser and a sloping air duct, differing from the fact that, in order to reduce hydraulic losses in the suction pipe and mixer, the latter are installed vertically. 2. Installation according to claim 1, characterized in that the axes of the mixer and the riser are arranged to each other at an angle of at least SO. Sources of information taken into account during the examination 1. USSR author's certificate I.500379, cl. F 04 F 5/24, 1973. 2. Mikhailov V.I. Some laboratory results of airlift for mining and transporting sand and gravel. Sat works VNIINERuda Extraction and processing of non-metallic building materials. Vsh.Z, M., Gosstroyizdat ,. 1963, p. 118-137.