Fig. 4 เปรียบเทียบอัตราการไหลเชิงมว

Fig. 4 comparison of mass flow rate TPERC and CRC as a function of the temperature of the heat sink for the heat source temperature. From Figure 4 (Fig. 4) shows the variance of mass flow rate measurement of high temperature heat sink in TPERC and in another heat source temperature CRC 8, 12 and 16 8C. in reality. Namyakrop mass flow rate in the CRC Is constant throughout the system, while TPERC is the mass flow rate is different for the pump and lowpressure side in this document. Pump beside the mass flow rate refers to the rate of flow through the nozzle TPERC pÞ ðm motivation _ and through the expansion device, CRC, while mass flow rate flows through the low-pressure sÞ ðm _ both evaporator for an action method. Consider the mass flow rate expansion devices, it is found that the low-temperature heat sink CRC will have a higher mass flow rate TPERC Moreover, the mass flow rate can be seen that the temperature increases increases TPERC heat sink.On the contrary, In the case of the unique thermal expansion valve temperature source. Mass flow rate of the CRC will tend to decrease with increasing temperature of the heat sink. This is due to the expansion valve is a type of variable flow control equipment to the evaporator liquid samples. If the cooling load reduced. The pressure in the valve reduced expansion Bay and repositions the valve is closed, there is a quantity of a liquid put in evaporator in the experimental results presentation shows the discount Qevap is increased temperature, heat sink, and is therefore unable to conclude that for the heat sink temperature CRC increased, causing mass flow rate namyakrop discount. In addition, the heat sink. The mass flow rate of the heat source temperature is higher than lower ones in the range of the temperature heat sink. Figure 4 also shows that the mass flow rate of evaporation increases with heat sink TPERC temperature rise. The rise of the mass flow rate of TPERC evaporation, leading to an increase of heat transfer coefficients. But this also results in an increase of the pressure drops across the volatile leading to an increase in the specific work of the compressor.

Fig. 4 Comparison of the mass flow TPERC and CRC as a function of temperature, heat sink for the various heating temperatures by Figure 4 (Fig. 4) shows the variation of the mass flow measurement of high temperature heat. TPERC basin in the design and the CRC for other heat source temperature 8, 12 and 16 8C. In fact. Cover liquid mass flow rate of CRC. Is constant throughout the system while TPERC the rate of mass flow at different pump and lowpressure of this document pump the mass flow rate refers to the rate of flow through the nozzle incentive pÞ ðm_ TPERC to. CRC devices and expansion While the mass flow rate of the low-pressure flow sÞ ðm_ evaporator for both operations. The mass flow rate of expansion devices. It is found that at low heat sink temperature, mass flow rate of CRC is higher TPERC also be seen that TPERC mass flow rate increases with increasing temperature, the heat sink on the contrary. The expansion valve The temperature of the heat source Mass flow rate of the CRC will increase. With increasing temperature, the heat sink is due to the expansion valve is a type of variable fluid flow control device as an example, if the evaporator cooling load reduction. Pressure in the Gulf expansion valve down and repositions valve with a volume of liquid to the evaporator in the presentation of the results showed reduced Qevap is increased by the heat sink, so it can be concluded that for. CRC heat sink temperature increased, the liquid mass flow rate lower cover. In addition, the temperature of the heat sink only. The rate of mass flow, the temperature of the heat higher than the range of the heat sink Figure 4 also shows that the rate of mass flow volatility of the increase of temperature TPERC the sink. heat rising. Increase in the mass flow rate of evaporation TPERC lead to an increase in the coefficient of heat transfer. However, this has resulted in an increase in the pressure drop across the evaporator, leading to an increase in the specific work of the compressor.

Fig. 4 compare mass flow rate TPERC CRC is a function of the temperature and heat sink for heat source of various temperature

. By from Figure 4 (Fig.4) show the variation of mass flow rate measurement of temperature of heat sink in the TPERC design and in CRC for temperature and other heat sources 8 12 16 8C.In fact, the mass flow rate of fluid in the CRC family. Is constant throughout the system, while TPERC have mass flow rate is different for petrol and lowpressure crimes in this document.P Þ ð. M _ TPERC to and through the expansion device CRC while the mass flow rate low-pressure side flow s Þ ð. M _ evaporator for both how to proceed. Considering the mass flow rate expansion device. It is found that the low temperature heat sink CRC.TPERC also can be seen that the mass flow rate TPERC increases with temperature increase heat sink
.On the contrary, in case the expansion valve, the specific heat source temperature, mass flow rate of CRC tends to decrease with increasing temperature heat sink This isFor example, if the load evaporator cooling down. The pressure in the lower Bay expansion valve, and repositions valve to the amount of liquid in evaporator tasks presented. Experimental results show reduced. Qevap. Have increased heat sink.It can be concluded that for CRC heat sink temperature increased mass flow rate liquid cover reduce. The temperature heat sink.Figure 4 also show that the mass flow rate of evaporation temperature increases with the increasing TPERC heat sink.The increase of mass flow rate of the volatile TPERC leads to the increase of the heat transfer coefficient.