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    • 8. 发明公开
    • GAS-LIQUID MIXING NOZZLE, AND EMULSION FUEL COMBUSTION SYSTEM AND ENVIRONMENT PURIFICATION MATERIAL SPRAY SYSTEM THAT USE SAME
    • GAS-FLÜSSIGKEITS-MISCHDÜSESOWIE EMULSIONSKRAFTSTOFF-VERBRENNUNGSSYSTEM UND UMWELTREINIGUNGSMATERIAL-SPRÜHSYSTEMDAMIT
    • EP2495051A1
    • 2012-09-05
    • EP10826548.9
    • 2010-10-18
    • Lead Industry Company Ltd.
    • KUDOH, Yasushi
    • B05B7/02A61L9/14A61L9/20B01F3/04B01F3/08B01F5/00B01F5/20B05B1/26B05B3/04F02M25/022
    • B01F3/04063A61L9/14A61L9/20A61L2209/212B01F3/0807B01F5/0268B05B1/265B05B1/3415B05B7/0433B05B7/0491B05B7/10F02M25/0225F02M25/0228F23D11/16Y02T10/121
    • Provided is a gas-liquid mixing nozzle (10) including an internal air discharge path (A), an external air discharge path (D), at least one liquid introduction path (B, C) which is disposed between the internal air discharge path (A) and the external air discharge path (D) and introduces a liquid having water and/or fuel as a main component into a nozzle discharge opening (18), and an impact member (22) with which a mixture of the air and the liquid mixed with each other in the outlets of the internal air discharge path (A) and the liquid introduction path (B, C) collides, the outlet of the internal air discharge path (A) and the outlet of the liquid introduction path (B, C) being disposed on the inside of a nozzle in relation to the nozzle discharge opening (18), and the impact member (22) being disposed between the outlets of the internal air discharge path (A) and the liquid introduction path (B, C) and the nozzle discharge opening (18). With the above-described configuration, the gas and the liquid may be highly efficiently mixed with each other, and the generation of water droplets of a liquid may be suppressed, thereby producing finer particles.
    • 提供一种气体混合喷嘴(10),其包括内部空气排出路径(A),外部空气排出路径(D),至少一个液体引入路径(B,C),其设置在内部空气排出路径 (A)和外部空气排放路径(D),并将具有水和/或燃料的液体作为主要成分引入到喷嘴排出口(18)中,并且将冲击构件(22)与空气和 在内部空气排出路径(A)和液体导入路径(B,C)的出口处彼此混合的液体与内部空气排出路径(A)的出口和液体导入路径 B,C)相对于喷嘴排出口(18)设置在喷嘴的内侧,冲击构件(22)设置在内部空气排出路径(A)的出口与液体导入路径( B,C)和喷嘴排出口(18)。 通过上述结构,可以将气体和液体高效地混合,并且可以抑制液体的水滴的产生,从而制造更细的颗粒。