It depends on the ambient condensing temperature. A pressure temperature comparison chart for 134Aa can be found at http://www.csgnetwork.com/r134apresstempconv.html Different refrigerants condensence and evaporate at different temps/pressure
Inlet pressure/discharge pressure
why it is necessary to decrease the pressure in the discharge tubbe to get cathode rays
its pressure between suction and discharge flow...
No, pump discharge pressure is not necessarily equal to stuffing box pressure. The discharge pressure refers to the pressure at the outlet of the pump, while stuffing box pressure is the pressure within the stuffing box where the pump shaft passes through. The stuffing box is designed to prevent leakage and can experience different pressure levels due to factors like friction and the sealing material used. Typically, the stuffing box pressure is lower than the discharge pressure, especially if the packing is providing effective sealing.
To calculate the discharge superheat on a chiller, first measure the temperature of the refrigerant gas at the discharge line using a temperature sensor. Next, determine the saturation temperature of the refrigerant at the corresponding pressure in the discharge line using pressure-temperature charts. Subtract the saturation temperature from the measured discharge temperature to find the discharge superheat. The formula is: Discharge Superheat = Discharge Temperature - Saturation Temperature.
I get clear strechy discharge and quite alot of it and pressure pain when ovulating
why it is necessary to decrease the pressure in the discharge tubbe to get cathode rays
Answer: The terms suction and discharge are the terms refer to hydraulics. In hydraulics if the the liquid has to be lifted or pumped to the usage area the hydraulic pump will be used . This pump will have to functions that is first suction to lift the fluid and the discharge or delivery . The familiar words in pair are lift and discharge; suction and discharge. The specification of pump for these terms are suction head and discharge head.AnswerThe suction pressure refers to the pressure of the referigerant being "sucked" back into the compressor. The suction pressure is a critical variable in ensuring the accuracy of the refrigerant charge, along with the tepmerature of that line as well. The "superheat", or heat added to the vapor in that line can be monitored in this manner.You have not mention which suction pressure... Actually Where ever the suction is presented that pressure is called suction pressure.... and suction pressure in practical cases normally always less that atmospheric pressure and in case of delivery pressure it is oppositeSaying that suction pressure is " the pressure of the referigerant being "sucked" back into the compressor " is not accurate.Simply , the suction pressure of a pump is the absolute pressure of a fluid , measured at the inlet of the pump ( in your answer , the pump is the compressor , and the fluid is whatever refrigerant. )The discharge pressure , is the absolute pressure of the liquid measured at the outlet of the pump.Obviously, the discharge pressure is usually bigger than suction pressure.
Connect the pressure gauge to the high pressure port. Discharge your Freon into the low pressure port. Stop the Freon discharge when the Freon engage reaches the appropriate level.
The mass flow rate and discharge pressure in a reciprocating compressor are directly related. As the discharge pressure increases, it can result in a higher mass flow rate through the compressor. This relationship is important for determining the performance and efficiency of the compressor in various operating conditions.
Maximum of 30,000 psi.
The typical suction pressure range for R-22 refrigerant is between 68-74 psi, while the discharge pressure ranges from 250-270 psi in a typical operating conditions.