近源性吸油烟机前端关键尺寸对噪声影响的仿真与实验研究

doi:10.19784/j.cnki.issn1672-0172.2025.03.020

摘要/Abstract

摘要： 近源性吸油烟机吸烟口接近烹饪烟源,吸烟效果好,近年来获得了广泛推广。但是近源性吸油烟机前端距离风机位置远,受形态限制,流动阻力大、噪声高。为了解决因流道长导致的噪声高问题,采用仿真和实验方法对吸油烟机前端型腔深度和导风板折边位置的关键尺寸进行了研究。研究结果表明型腔深度的减小降低了吸油烟机箱体内部的湍流和压力波动,优化了箱体内的流速和压力分布情况,通过减小型腔深度噪声降低了1.83 dB(A)。另外,导风板折边位置下移可以减少前端箱体内高流速区域的分布并降低流体的湍动能,噪声进一步降低了0.53 dB(A)。仿真和实验结果表明,优化型腔深度和导风板折边位置可有效降低吸油烟机的噪声,为后续近源性吸油烟机的研究开发提供了有益参考。

关键词: 近源性吸油烟机, 型腔深度, 导风板折边位置, 噪声

Abstract: Proximity range hoods have gained well promotion in recent years due to their close distance from exhaust port of the range hood to the cooking stoves and good smoke extraction performance. However, constrained by the morphology of proximity range hoods, the elongated distance between the front end and the fan leads to high flow resistance and high noise. In order to solve the problem of high noise caused by the long airflow path of the proximity range hoods, simulation and experimental methods were used to study the key dimensions of the front cavity depth and the guide plate position of the proximity range hoods. The study results show that reducing the cavity depth reduces the turbulence and pressure fluctuations in the hood, optimizing the flow velocity and pressure distribution and results in a noise reduction of 1.83 dB(A) by decreasing the cavity depth. Additionally, lowering the position of the guide plate reduces the distribution of high-velocity regions within the cavity and decreases the turbulent energy of the airflow, leading to a further noise reduction of 0.53 dB(A). The simulation and experimental results show that optimizing the depth of the cavity and the position of the guide plate can effectively reduce the noise level of the range hood. This study provides useful reference for the further researches and development of proximity range hoods.

Key words: Proximity range hoods, Depth of the cavity, Position of the guide plate, Noise

中图分类号:

TM925.57

陈胜利, 郭利华, 霍星凯, 蒋济武, 郝猛. 近源性吸油烟机前端关键尺寸对噪声影响的仿真与实验研究[J]. 家电科技, 2025, 0(3): 112-116.

CHEN Shengli, GUO Lihua, HUO Xingkai, JIANG Jiwu, HAO Meng. Simulation and experimental study on the influence of key dimensions of the front end of proximity range hoods on noise[J]. Journal of Appliance Science & Technology, 2025, 0(3): 112-116.

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