Investigation of the process of ultrasonic cleaning of exhaust gases from an internal combustion engine

BULLETIN of L.N. Gumilyov Eurasian National University. Technical Science and Technology Series Pub Date : 1900-01-01 DOI:10.32523/2616-7263-2021-137-4-18-28

A. Kadyrov, A. Ganyukov, B. Sarsembekov, Zhanara Zhunusbekova, K. Sinelnikov

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Abstract

The authors have developed and investigated a mathematical model of the operation of an ultrasonic automobile muffler, which allows calculating the necessary parameters for effective work on cleaning the exhaust gas of motor transport. An experiment has been conducted to prove the effectiveness of ultrasonic exposure for cleaning the exhaust gas of motor vehicles. There are considered forces acting on a gas particle moving in an ultrasonic automobile muffler, the values of the velocities of motion of coagulated particles horizontally and vertically. There are determined the coagulation coefficient in an ultrasonic muffler. The effectiveness of ultrasonic exposure to the exhaust gas of motor transport has been proven during the experiment and has a promising development of this direction of cleaning aerosols from harmful impurities by the proposed method. According to the results of the experiment, the concentration of hydrocarbon CH decreased by more than 2 times, at 1000 rpm from 50 ppm/min to 27 ppm/min.

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内燃机废气超声清洗工艺的研究

本文建立并研究了超声波汽车消声器工作的数学模型，该模型可以计算出有效清洁汽车尾气的必要参数。通过实验验证了超声波暴露对机动车尾气净化的有效性。在超声波汽车消声器中，考虑了作用在气体颗粒上的力，凝固颗粒的水平和垂直运动速度的值。超声消声器的凝固系数是确定的。超声波暴露于机动车尾气中的有效性已在实验中得到证实，并在该方向上具有良好的发展前景。实验结果表明，在1000 rpm时，烃类CH的浓度从50 ppm/min降低到27 ppm/min，降低了2倍以上。

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BULLETIN of L.N. Gumilyov Eurasian National University. Technical Science and Technology Series

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