太阳能热冷却系统喷射器的设计、制造和试验

ASHRAE winter conference papers. American Society of Heating, Refrigeration and Air-Conditioning Engineers Pub Date : 2020-06-17 DOI:10.37591/JORACHV.V7I1.873

B. Arthy, T. Kumaresan, C. M. Mithiran, S. Dharaneeswaran, V. Thivakar, P. Balamurugan

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引用次数: 0

摘要

太阳能热冷却系统主要由太阳能板、发电机、冷凝器和蒸发器组成。此外，在现有系统中安装了一个喷射器，以提高系统的性能。喷射器有一个主要和次要入口喷嘴。在一次流喷嘴中，原动力制冷剂将在来自发电机的高压下流动。利用文丘里效应减小喷射器面积以增加压力。由于原动力制冷剂的高速流动，在吸气腔内产生负压，进而从蒸发器中吸出低压制冷剂。高压动力制冷剂和低压制冷剂的混合物以中压进入冷凝器，循环过程继续进行。该项目的主要范围是制作“喷射器”。

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Design, Fabrication and Testing of Ejector for Solar Thermal Cooling System

The Solar Thermal Cooling System mainly comprises of Solar Panels, Generator, Condenser and Evaporator. In addition an ejector is mounted in the existing system to improve the performance of the system. The Ejector is having a primary and secondary inlet nozzle. In the primary flow nozzle the motive refrigerant will flow with high pressure which comes from generator. The area of the ejector is reduced to increase the pressure by means of venturi effect. Due to high velocity of motive refrigerant, the negative pressure is created inside the suction chamber which in turn sucks the low pressure refrigerant from the evaporator. The mixture of high pressure motive refrigerant and the low pressure refrigerant passes into the condenser at moderate pressure and the cyclic process is continued. The main scope of the project is to fabricate only the ״ejector״.

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ASHRAE winter conference papers. American Society of Heating, Refrigeration and Air-Conditioning Engineers

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