Integral enthalpies and entropies of a lithium bromide water solution
Annotation
Of crucial importance for thermal engineering calculations of absorption heat transformers is the precision in defining major thermodynamic potentials of the solutions used. It is difficult to assess the accuracy of such calculations because authors use different potential reference points. The technique is proposed to attain unification of references while calculating major thermodynamic potentials of solutions and verify the values of specific integral enthalpies and entropies of lithium bromide water solutions obtained by different authors.
Keywords
Постоянный URL
Articles in current issue
- Heat transfer of refrigerants boiling in small channels
- К 80-летию В.В. Сычева
- Mathematical model of the ice build-up process on a spherical surface for cold accumulators
- Increasing the efficiency of the cooling system for fruit and vegetable storage facilities
- Possibilities of modelling a self-cleaning mechanism for flavoured water carbonators
- Thermodynamic analysis of heat exchangers within an energy conversion system by the entropy-cycle method
- Estimation of gravimetric coefficients for calculating physical and chemical parameters of a water–propylene glycol electrolyte coolant
- Analysis of the dependence of wax extraction degree on temperature
- Hybrid evaporation-compression air conditioning system
- Памяти Бориса Николаевича Семенова
- Analytical research on the process of low-temperature treatment of fish with snow-like carbon dioxide
- Development of air-conditioning systems: current status and prospects
- Generating low boiling temperatures of a refrigerant in a lithium bromide absorption refrigerating system
- The equation of the saturation and elasticity line of the R218 refrigerant
- A new method and a device for preheating canned fruits and vegetables with hot air
- Evaluation of the effectiveness of lamellar recuperators with regard to falling out water
- The second virial coefficient of tetrafluoromethane