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The Discharge Temperature at High Pressure Compressor is the temperature at which refrigerant leaves the compressor. It is a critical parameter in refrigeration and air conditioning systems that affects system efficiency and performance.
The calculator uses the formula:
Where:
Explanation: This formula calculates the discharge temperature based on the cooling ratio and the temperature difference between the suction temperatures at high and low pressure compressors.
Details: Accurate discharge temperature calculation is crucial for system design, efficiency optimization, and preventing compressor overheating in refrigeration and air conditioning systems.
Tips: Enter all temperatures in Kelvin, and cooling ratio as a dimensionless value. All values must be positive numbers for accurate calculation.
Q1: Why is discharge temperature important in compressor systems?
A: Discharge temperature affects system efficiency, compressor life, and helps prevent overheating and potential system failures.
Q2: What is the typical range for discharge temperatures?
A: Typical discharge temperatures range from 70°C to 120°C (343K to 393K), depending on the refrigerant type and system design.
Q3: How does cooling ratio affect discharge temperature?
A: Higher cooling ratios result in lower discharge temperatures, improving system efficiency but requiring more cooling capacity.
Q4: What factors can cause high discharge temperatures?
A: High compression ratios, insufficient cooling, refrigerant overcharge, or system restrictions can lead to elevated discharge temperatures.
Q5: How can discharge temperature be controlled in practice?
A: Through proper system design, adequate cooling, refrigerant charge optimization, and regular maintenance to ensure efficient operation.