From Figure 4 (Fig. 4) shows the variation of the mass flow rate measurement of temperature, heat sink temperature TPERC design and the CRC for other sources of heat 8 to 12 and 16 8C. In fact. Cover liquid mass flow rate of CRC. Is constant throughout the system while TPERC rate of mass flow at different pump and lowpressure side in this document pump the mass flow rate refers to the rate of flow through the nozzle incentive pÞ ðm_ TPERC to. and through expanding CRC While the mass flow rate of the low-pressure flow through sÞ ðm_ evaporator for both operations. The mass flow rate of expansion devices. It was 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, heat sink,
on the contrary. The expansion valve The only heat source temperatures Mass flow rate of CRC will increase. With increasing temperature, the heat sink is due to the expansion valve is a type of the variable flow control device with a liquid sample evaporator cooling load is reduced. The pressure in the Gulf of expansion valve down and repositions the valve to the volume of liquid in the evaporator in the presentation of the results showed lower Qevap has increased the heat sink can therefore be concluded that for. CRC-temperature heat sink, increasing the rate of mass flow, reducing reagent cover. In addition, a heat sink alone. The mass flow rate of the heat source at temperatures higher than those in the lower range of the heat sink.
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