A compilation of thermodynamic and bodily knowledge for the refrigerant designated “134a” is important for system design and operation. This knowledge, usually offered in tabular format, contains properties similar to temperature, strain, density, enthalpy, entropy, and particular warmth at numerous states. An instance would possibly present saturated liquid and vapor properties at completely different temperatures, or superheated vapor properties at completely different temperatures and pressures. These tables typically embrace transport properties like viscosity and thermal conductivity.
Entry to correct knowledge is essential for engineers and technicians working with refrigeration and air-con techniques. These knowledge facilitate correct calculations for system efficiency, part sizing, and cost willpower. Traditionally, these tables have been derived via meticulous laboratory measurements and sophisticated calculations. Their availability considerably superior the sector of refrigeration by enabling exact system design and optimization. Understanding the thermodynamic habits of 134a is significant for environment friendly and protected operation of techniques using this refrigerant.
