A swirl atomizing nozzle

Abstract

The invention discloses a cyclone atomizing nozzle. The cyclone atomizing nozzle comprises a nozzle inner core and a nozzle shell, wherein the nozzle shell is sleeved outside the nozzle inner core, a jet nozzle is formed in the end part of the nozzle shell, a certain end of the nozzle inner core is provided with an inner circular conical surface and an air inlet cavity is formed by the inner circular conical surface and the inner wall of the nozzle shell; another end of the nozzle inner core is provided with a through hole dead against the jet hole, a plurality of swirl blades are arranged on the inner wall of the through hole, and a swirl cavity is formed by the through hole and the inner wall of the nozzle inner core; after the nozzle is fixed at a gas outlet end of a gas well, a gas-liquid mixture enters the air inlet cavity and then compresses the volume of the air inlet cavity by the inner circular conical surface when the gas-liquid two-phase mixture is pushed to ascend by the pressure in the well, so as to improve the flow velocity of the gas-liquid mixture; when the gas-liquid mixture enters the swirl cavity, the fluid and swirl blades are contacted with each other, the fluid is driven to rotate by the swirl blades, and finally the gas-liquid mixture is thrown out by the jet hole by virtue of the centrifugal force generated by rotating.

Description

technical field [0001] The invention relates to the field of downhole gas recovery, in particular to a swirl atomizing nozzle. Background technique [0002] In most gas wells in China, there will be water accumulation at the bottom of the well to varying degrees. For gas wells with bottom water or edge water, the liquid-gas ratio will gradually increase during the production process. If the liquid-gas ratio or bottom-hole liquid accumulation is not adjusted in time If the wellhead is not removed in time, it will lead to the normal production of the gas well, or even drown the gas well and cause production shutdown. Therefore, correctly predict the lifting capacity of the gas well at different levels of liquid content and choose the appropriate drainage and gas recovery process for the gas well according to the actual situation of the gas well. has important practical significance. [0003] At the beginning of a small amount of liquid accumulation at the bottom of the gas we...

AI Technical Summary

Problems solved by technology

In the prior art, a straight nozzle is usually used, and the liquid obtains greater kinetic energy after being pressurized. After passing through the nozzle, the liquid will be ejected at a high speed. Under the interaction of the surface tension, viscosity and air resistance of the liquid, the liquid will The dripping, smooth flow, and wavy flow gradually change to the spray flow, and finally realize the two-phase separation of gas and liquid; but because the water flow discharged from the direct injection nozzle has surface tension, it needs to continuously flow downhole during the process of the liquid turning into a spray flow. Only by pressurizing can the liquid be ejected at a high speed and rub against the surrounding air to separate and atomize, and the higher the downhole air pressure, the lower the safety and reliability faced during gas production, which can easily lead to safety accidents

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