SU1214859A2 - Apparatus for pumping-out fluid in air stream - Google Patents

Description

The invention relates to water supply mainly from underground sources, can be used for hydrogeological testing and operation of wells, and is an improvement of the device according to author. USSR № 901419.

The purpose of the invention is to increase the usability of the device.

The drawing schematically shows the proposed device.

The device consists of a nozzle ,, glass 2, a water-lifting pipe 3, a dilator 4, a water-air ejector 5, an open cyclone 6, a container

7dl collection of raised water pipe

8dl draining the raised water, the suction pipe 9, the pump 10, the discharge - pipeline i1. A water pumping device is placed in the well 12. The device’s basic scheme does not change if pump 0 is replaced by a compressor, or pump 10 and ejector 5 are replaced by a vacuum with a pump or high pressure pump.1. The nozzles are fixed on the lower end of the lifting pipe 3 and hermetically connected to the bottom of the bowl 2. The outlet of the bushing should be chosen so that the amount of water entering under the pressure H into the lifting pipe 3, ke exceeds 3% of the amount of air drawn off by the air ejector 5. The expander 4 is sealed to the lifting pipe above the glass 2. The distance from the bottom base of the extender to the upper end of the glass should be minimal, but sufficient for unhindered passage. air into the glass.

The device works in a manner that follows.

For pumping out water from the well, the water-lifting pipe 3 is assembled with glass 2, water, pump 1 and expander 4 under the static water level in well 12 to a depth H with pump 10 and water-air ejector 5 turned on. the inlet flow in the lifting pipe 3 is moving towards the atmosphere through the openings of the perforated area. In this process, water is pumped out ,,

VNIIPI Order 866/44

Branch ShSh Patent ,, the city of Uzhgorod ,, Project St. 8 4

148592

E case off water-to-air. The second ejector 5 stops the water from the well. Glass 2 is filled with water, and the water level in it and 5 Squigina 12 becomes the same. When the ejector 5 is switched on again in the water-raising pipe 3, a vacuum is created, due to which water from the glass 2 through the perforations in the water-lifting pipe 3 rises into the expander 4, filling it. The water level in the glass 2 at the same time decreases, and in the expander 4 rises to the extent of perforation in the water-lifting

15 to the pipe 3. After that, the atospheric air enters through perforation B of the lifting pipe 3 and then into the expander 4, producing aeration of the water inside it. As a result,

20 of the reservoir pipe 3 an aerated stream of water enters the surface.

The volume of the expander is taken from the condition of placing all the water in it in the glass during the device start-up period. For this, the ratio of the volumes of the expander Wp and the cup W is assumed according to the condition WP / WQ. The maximum height of the column of water from perforation in

30 of the lifting column to the free surface in the expander should not exceed the maximum vacuum height of the suction of the vacuum apparatus, taking into account its costs to create, jj, the velocity head of the air / water mixture and overcome the resistance of the flow channels. When you start the device to work during the emptying of the glass through the nozzle 1 enters the

40 water pipe 3 some amount of water that must also be placed in a glass. From this, the upper limit for the ratio of the volumes of the expander to the

45 kana for typical drill / pipe sizes WP / W- i 1,3.

The proposed device allows rastigirit area of application of the method of pumping WATER airflow to

50 production wells (at the static level of the well, exceeding 10 m) and when using it, there is no need to perform descent operations

,; 5th pipe when starting to work.

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Claims (1)

DEVICE FOR LIQUID PUMPING BY AIR FLOW by ed. No. 9014) 9, characterized in that, in order to improve ease of use, the riser is equipped with an expander located above the glass, and the ratio of the volumes of the expander and glass satisfy the condition 1, 3 W _p / W _c > 1, 0, where Chr is the volume of the expander; ~ volume of a glass. "121