Spiral pipeline oscillation atomizer based on bionic surface
A technology of spiral pipes and atomizers, applied in chemical instruments and methods, separation methods, use of liquid separation agents, etc. Too stable, low peak outlet velocity, etc., to achieve the effect of improving atomization performance, simple structure, and reducing resistance
Active Publication Date: 2021-05-25
ZHEJIANG UNIV OF TECH
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For example: the patent with the publication number CN204571851U, the patent with the publication number CN203711178U, the patent with the publication number CN203961086U, etc., the structure size is larger or more complex, and the energy accumulation and release inside the atomization device are not stable, and the peak value of the outlet velocity is relatively high. Low
In a non-closed environment, continuous and stable jet flow and high-quality atomization behavior cannot be obtained
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[0029] The present invention will be further elaborated and described below in combination with specific embodiments. The technical features of the various implementations in the present invention can be combined accordingly on the premise that there is no conflict with each other.
[0030] Such as Figure 1~2 As shown, a spiral pipeline oscillating atomizer based on a bionic surface according to an embodiment of the present invention includes a main body of the atomizer (a gas flow channel 1, a liquid flow channel 2, a gas-liquid mixing chamber 3, a bionic surface flow channel 4) and external connecting rod 5 and oscillating block 6. The gas channel 1 is 0.7 times the overall length of the atomizer, and its interior is a constricted conical tube, the inner wall is a double helix surface 10, the contraction ratio is 0.5, and the outer surface has threads 11, which can be used to communicate with the external gas The pipeline is connected, and the non-free end of the gas flow...
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The invention provides a spiral pipeline oscillation atomizer based on a bionic surface. The spiral pipeline oscillation atomizer based on the bionic surface has good atomization performance, and can increase the distance of jet flow and enhance the stability of the jet flow, effectively reduce the energy consumption, increase the liquid atomization efficiency, and has good application prospects. The structure of the spiral pipeline oscillation atomizer based on the bionic surface mainly comprises an atomizer main body, a connecting rod and an external oscillation block, wherein a gas flow channel, a liquid flow channel, a gas-liquid mixing cavity and a bionic surface flow channel are formed in the atomizer main body. The gas flow channel is a contracted circular pipe, and the inner wall of the gas flow channel is a double-spiral surface. When high-pressure gas is introduced, the flow channel can enable the gas to flow in a greatly accelerated mode and realize rotary propelling movement, the gas collides with the accelerated liquid in the gas-liquid mixing cavity, and primary atomization behavior for the liquid is realized. After passing through the bionic surface flow channel, secondary acceleration is realized, fog drops impact the oscillation block after leaving the atomizer main body, secondary atomization breaking for the fog drops is realized through high-frequency oscillation of the oscillation block, and therefore the overall atomization quality of a system is improved.
Description
technical field [0001] The invention belongs to the technical field of atomization and dust removal, and in particular relates to a spiral pipeline oscillating atomizer based on a bionic surface. Background technique [0002] Atomization dust removal technology is currently a relatively effective method for removing fine particles in the air. Most of the traditional atomization equipment adopts high-pressure atomization and ultrasonic atomization methods, but this type of atomization equipment requires additional excitation devices, which will greatly The energy consumption is greatly increased, and the structure of this type of equipment is relatively complicated, and the atomization effect is poor. In closed environments such as desulfurization towers and washing towers, this type of atomization equipment can achieve better dust reduction effects, but in non-closed and relatively complex environments such as mine roadways, open storage yards, and construction sites, the ap...
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IPC IPC(8): B05B7/04B05B17/06B01D47/06
CPCB05B7/0416B05B17/06B01D47/06
Inventor 陈波陈超群李研彪李文英张利卢英杰钟麒王泽胜孙鹏戴显永许尽欢
Owner ZHEJIANG UNIV OF TECH