超聲波清洗由于其的清洗能力,無論被清洗對象是大還是小,清洗量是多還是少,或者形狀多樣,盲區(qū)較多,超聲波都能保證可以獲得其他清洗方式無法替代的清潔度和效果,那么您知道超聲波清洗設(shè)備中的脫氣功能是怎樣的嗎?
Because of its excellent cleaning ability, ultrasonic cleaning can ensure the cleanliness and effect that cannot be replaced by other cleaning methods, no matter whether the object to be cleaned is large or small, the amount of cleaning is large or small, or the shapes are diverse, and there are many blind areas. Do you know what the degassing function of ultrasonic cleaning equipment is?
超聲波引入溶液中時,會產(chǎn)生交替壓力,用于空化閾的聲波在液體中傳播時能夠產(chǎn)生空化氣泡并且能顯著提高氣體從溶液中到氣泡的傳質(zhì)速率??栈瘹馀萦扇芤褐形⑿〉臍夂水a(chǎn)生,在聲波的稀疏相內(nèi)由于張應(yīng)力(負(fù)壓力)的作用會產(chǎn)生這些空泡。
When ultrasonic wave is introduced into the solution, it will produce alternating pressure. When the sound wave used for cavitation threshold propagates in the liquid, it can produce cavitation bubbles and significantly improve the mass transfer rate of gas from the solution to bubbles. Cavitation bubbles are generated by tiny gas nuclei in the solution, and these bubbles will be generated due to the effect of tensile stress (negative pressure) in the sparse phase of sound waves.
如果張應(yīng)力在空泡形成后繼續(xù)存在,此時空化泡就會擴(kuò)張到初始尺寸的許多倍。在這種情況下,空化泡保持球形結(jié)構(gòu),之后不斷地增長、振動、崩潰。超聲波作用時,溶液中氣體成分可通過氣-液界面“定向擴(kuò)散”進(jìn)入空化氣泡,空化氣泡進(jìn)人生長階段,當(dāng)空化氣泡在溶液表面崩潰時,氣體會從氣泡中逸出,這就造成了脫氣作用。
If the tensile stress continues to exist after the cavitation is formed, the cavitation bubble will expand to many times its initial size. In this case, the cavitation bubble maintains a spherical structure, and then continues to grow, vibrate, and collapse. Under the action of ultrasound, the gas components in the solution can enter the cavitation bubble through the "directional diffusion" of the gas-liquid interface, and the cavitation bubble enters the growth stage. When the cavitation bubble collapses on the surface of the solution, the gas will escape from the bubble, which causes degassing.
超聲波脫氣設(shè)備優(yōu)點,泡沫為氣泡的大量聚集,超聲波脫氣氣設(shè)備是在泡沫生成前期、氣泡未大量聚集前對液體進(jìn)行消泡、脫氣,或是對溶解、混合在液體內(nèi)的氣體進(jìn)行消泡、脫氣。整個過程不使用任何消泡劑,是完全的物理消泡方式,也可稱作機(jī)械消泡方式。對于已經(jīng)生成的表面泡沫,該設(shè)備作用不明顯,需要配合消泡膜方式共同加以。
The advantage of ultrasonic degassing equipment is that foam is a large amount of bubble accumulation. Ultrasonic degassing equipment is to defoaming and degassing the liquid in the early stage of foam formation and before a large amount of bubbles gather, or defoaming and degassing the gas dissolved and mixed in the liquid. The whole process does not use any defoamer, which is a complete physical defoaming method, also known as mechanical defoaming method. For the generated surface foam, the effect of the equipment is not obvious, and it needs to be solved together with the defoaming film method.
脫氣主要運(yùn)用的是超聲的“定向擴(kuò)散”,一旦產(chǎn)生空化,內(nèi)部還是有空氣,在一些熔融液脫氣純化應(yīng)用中以不產(chǎn)生空化佳。液體的空氣排掉,減少超聲波空化反應(yīng)產(chǎn)生的氣泡的阻力,增強(qiáng)超聲波清洗機(jī)的清洗效率。還有一種作用就是超聲波清洗機(jī)工作時間久了會產(chǎn)生一種超聲波疲勞,減低清洗效果和效率,排氧脫氣功能還可以這種超聲波疲勞。
Degassing mainly uses ultrasonic "directional diffusion". Once cavitation occurs, there is still air inside. In some applications of degassing and purification of molten liquid, it is better not to produce cavitation. The liquid air is discharged, which reduces the resistance of bubbles generated by ultrasonic cavitation reaction and enhances the cleaning efficiency of ultrasonic cleaning machine. Another function is that the ultrasonic cleaning machine will produce a kind of ultrasonic fatigue after working for a long time, which will reduce the cleaning effect and efficiency. The oxygen and degassing function can also eliminate this kind of ultrasonic fatigue.
After the comprehensive explanation of the manufacturer of ultrasonic cleaning machine, it can be seen that the degassing function of ultrasonic cleaning equipment is very powerful, which can better achieve the purpose of cleaning and improve the cleaning effect.
以上就是問題解答的相關(guān)內(nèi)容了,希望能夠幫助到大家,如對這一問題還存在任何疑問,都?xì)g迎關(guān)注我們網(wǎng)站
gzhgn.cn并咨詢我們的工作人員,將竭誠為您服務(wù)。
The above is the relevant content of the question answer. I hope it can help you. If you still have any questions about this problem, you are welcome to follow our website www.jnthcsb And consult our staff, we will serve you wholeheartedly.