The ratio between the Joule–Thomson effect and the second virial coefficient
Annotation
Correlations are presented between the differential Joule–Thomson effect and second virial coefficient. The differential Joule–Thomson effect characterizes the rate of temperature change in an irreversible isenthalpic process. The values of this effect are calculated for the gaseous HFC-125 agent (CHF2-CF3).
Keywords
Постоянный URL
Articles in current issue
- The 19th General Annual Meeting of the International Academy of Refrigeration
- Results of the IAR’s work in 2011–2012 (Report of the IAR President at the 19th General Annual Meeting on 24 April 2012)
- Substitution of the R22 refrigerant with alternative ones in the regions with high outdoor temperatures
- The ratio between the Joule–Thomson effect and the second virial coefficient
- Calculating the phase equilibrium of diluted solution separation processes to obtain super-pure products
- Applying the method of sensitivity analysis to the calculation of thermoelectric air conditioners
- Possible use of enzymes to produce semi-finished products from meat trimmings
- Calculating loads for a multi-ring piston seal in high-pressure oil-free compressors
- Density of working substance in different parts of a screw compressor during the intake
- Heat transfer in the organism under whole body cryotherapy
- A method of solving the problem of vector optimization for air conditioning systems
- Cryosurgery against inoperable pancreatic cancer
- Gas dynamic aspects of the work of a cryogenic vacuum pump in the viscous mode of gas flow
- Adjusting the efficiency of a screw refrigeration compressor by means of internals devices
- Development of complex modifiers for bakery dough fast-frozen after proving
- Studying corrosion resistance of stainless steel types in an inhibited water solution of lithium bromide
- Aircraft ground air conditioners: from the past to the future