Experimental Measurement of Oil Droplets Size and Velocity Above the Rotor/Stator in a Rotary Compressor

Puyuan Wu, Jun Chen, P. Sojka, Yang Li, Hongjun Cao
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引用次数: 1

Abstract

Hundreds of millions of Air conditioning (AC) systems are produced each year. Many of them, especially small AC appliances, use rotary compressors as the system’s heat pump due to their simple structure and high efficiency in a small system. Lubricant oil is used in the rotary compressor to lubricate the moving parts, such as the crankshaft and the rolling piston, and to seal the clearance between the sliding parts, e.g., the clearance between the rolling piston and the cylinder, and the vane and the cylinder. As the compressed refrigerant vapor is discharged from the cylinder through the discharge port, part of lubricant oil in the cylinder would be carried by the vapor and atomize into small droplets in the lower cavity during the discharge process, which is complicated and highly-coupled. Some of these oil droplets would ultimately be exhausted from the compressor and enter other parts in the system, reducing the compressor reliability and deteriorating the heat transfer of the condenser and the evaporator in the system. Our previous research studied the atomization of the lubricant oil during the discharge process in the compressor’s lower cavity. However, the oil droplets’ behavior downstream of the lower cavity is unknown. Thus, studying the oil droplets’ behavior after passing through the rotor/stator can help understand how the rotor/stator would affect the droplet size distribution and movement, thus controlling the flow rate of escaped oil droplets. In this study, a hot gas bypass test rig is built to run a modified rotary compressor with sapphire windows right above the rotor/stator. The oil droplets’ size distribution and movement along the radial direction are obtained at the shaft’s rotating frequency of 30 and 60 Hz by shadowgraph. It is found that droplet size at 30 and 60 Hz varies little in the inner region of the rotor/stator clearance and would increase sharply above the clearance and keep increasing in the outer region of the clearance. More importantly, droplet velocity has a downward velocity component at the inner region and an upward velocity component at the outer region of the rotor/stator clearance. With the result of droplet size distribution and droplet velocity above the rotor/stator, we propose the model of the oil droplet’s path above the rotor/stator, which can be understood as the coupling of a swirling jet and a rotating disk.
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旋转压缩机转子/定子上方油滴大小和速度的实验测量
每年生产数亿台空调(AC)系统。它们中的许多,特别是小型交流电器,使用旋转压缩机作为系统的热泵,因为它们结构简单,在小型系统中效率很高。润滑油在旋转压缩机中用于润滑运动部件,如曲轴和滚动活塞,并密封滑动部件之间的间隙,如滚动活塞与气缸之间的间隙,叶片与气缸之间的间隙。压缩后的制冷剂蒸汽通过排出口从气缸排出,在排出过程中,气缸内的部分润滑油会被蒸汽携带并在下腔内雾化成小液滴,这是一个复杂且高度耦合的过程。其中一些油滴最终会从压缩机中排出并进入系统中的其他部件,从而降低压缩机的可靠性,并恶化系统中冷凝器和蒸发器的传热。我们之前的研究是针对润滑油在压缩机下腔排出过程中的雾化进行的。然而,油滴在下腔下游的行为是未知的。因此,研究油滴通过转子/定子后的行为,有助于了解转子/定子对油滴粒径分布和运动的影响,从而控制油滴的逸出流量。在这项研究中,建立了一个热气体旁路试验台来运行一个改进的旋转压缩机,转子/定子正上方有蓝宝石窗。在轴的旋转频率为30hz和60hz时,用阴影图得到了油滴的尺寸分布和沿径向的运动情况。研究发现,在30和60 Hz时,液滴尺寸在动静间隙内变化不大,在间隙以上急剧增大,在间隙外继续增大。更重要的是,液滴速度在转子/定子间隙内区域有一个向下的速度分量,在转子/定子间隙外区域有一个向上的速度分量。根据液滴在转子/定子上方的尺寸分布和液滴速度,提出了油滴在转子/定子上方的路径模型,该模型可以理解为旋转射流和旋转圆盘的耦合。
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