Evaluation of the efficiency of liquid degassing technology based on the principle of hydrodynamic cavitation

Q3 Engineering

Acta Periodica Technologica Pub Date : 2023-01-01 DOI:10.2298/apt2354237n

Anna Nedbailo, Georgy Ivanitsky, Bogdan Tselen, Oleksandr Obodovych, Natalia Radchenko

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Abstract

The article presents data on the evaluation of the effectiveness of liquid degassing in the conditions of hydrodynamic cavitation, which is implemented in a Venturi tube. Based on the conducted experimental studies and the obtained data on the change in pH of the liquid, a change in the carbonic acid-dissolved gas balance was observed. In the terms of the single bubble dynamics model, the potential different sizes growth of gas microbubbles of under pressure relief conditions for two treatment modes is determined. It was found that increasing the efficiency of degassing causes the pressure in the cavitator to decrease to the maximum possible negative pressure. This allows the growth of the smallest bubbles to be activated in the degasser equipment. It is shown that the theoretical assessment of the potential effectiveness of cavitation degassing is somewhat overestimated. This is explained by the difference in calculated pressure values and actually created pressures in the degassing equipment. Correlation of theoretical calculations of cavitation efficiency based on experimental data showed that in the proposed treatment modes it is possible to activate bubbles from 1.5 to 3.0 ?m, which also ensures a high degree of degassing.

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基于水动力空化原理的液体脱气技术效率评价

本文介绍了在文丘里管中进行的流体动力空化条件下液体脱气效果的评价数据。根据所进行的实验研究和获得的液体pH值变化数据，观察到碳酸-溶解气体平衡的变化。根据单泡动力学模型，确定了两种处理方式下气体微泡在泄压条件下的潜在不同尺寸生长。研究发现，提高脱气效率可使空化器内压力降低到最大可能的负压。这允许在脱气器设备中激活最小气泡的生长。结果表明，对空化脱气潜在效果的理论评价有些高估。这可以用计算压力值与脱气设备中实际产生的压力的差异来解释。基于实验数据的空化效率理论计算的相关性表明，在所提出的处理模式下，可以激活1.5 ~ 3.0 μ m的气泡，同时也保证了高脱气程度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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