摘要
本文所研究的环境实验室主要应用于间接蒸发冷却空调和直接蒸发冷却空调等产品的性能测试,依据数据机房用单元式空气调节机的测试要求,设计了该实验室室外侧房间的送风结构。该送风结构采用侧送顶回的方式,侧面采用孔板送风,借助数值模拟的方法探究了孔板孔隙率分别为26%、12%和6%时,测试区域速度场和温度场的分布规律,通过分析模拟结果发现,孔隙率的减小对测试区域内温度场的影响十分微弱,随着孔隙率的降低面平均温度下降了0.01 k,而速度场有较为明显的变化,孔隙率为26%时,面平均速度为0.612 m/s,孔隙率为6%时,面平均速度为0.436 m/s。通过观察云图可知,单孔板送风形式下,被测机迎风面风速较高且风速波动大。因此本文提出了双孔板节流的送风形式,在该送风形式下,测试区域内面平均风速下降至0.34 m/s,并且有效改善了被测机迎风面的速度分布。
The environmental laboratory studied in this paper is mainly used in the performance testing of in-direct evaporative cooling air conditioners and direct evaporative cooling air conditioners. Based on the test requirements of the unit air conditioner used in the data room, the air supply structure of the outdoor side room of the laboratory is designed. The air supply structure adopts the method of side supply and top return, and the side adopts orifice plate to supply air. By means of numerical simulation, the distribution rule of the velocity field and temperature field in the test area are investigated when the orifice porosity is 26%, 12% and 6% respectively. According to the analysis and simulation results, it shows that decreased porosity has a very weak effect on the temperature field in the test area. When the porosity is 26%, the average surface velocity is 0.612 m/s, and when 6%, the average surface velocity is 0.436 m/s. By observing the cloud map, it can be seen that in the form of single-hole plate air supply, the wind speed on the windward side of the tested machine is high and the wind speed fluctuates greatly. Therefore, this paper proposes the air supply form of double-orifice plate throttling. Under this air supply form, the average wind speed in the test area drops to 0.34 m/s, and the speed distribution on the windward surface of the tested machine is effectively improved.
出处
《建模与仿真》
2022年第2期335-345,共11页
Modeling and Simulation
