5584193 Absorption-type refrigeration systems and methods

Describ& three variants of a &oi warm -air h&&g system 'designed to ensure thermal comfort and ventilation with economical energy consumption. ## %/01%6 From pure tlulda to raotroplc and azaotroplc mlxturaa: The affacta of rafrlaarant-oll aolublllty on ayatam performance Hewitt, N. J. et aL, Inr.

A computational model is developed for the parametric investigation of single-effect and series flow double-effect LiBr/ H 2 O absorption refrigeration systems. The effects of generator, absorber, condenser, evaporator and dead state temperatures are examined on the performance of these systems. The

A comparative thermodynamic study of the vapour absorption refrigeration systems (VARS) working with HFC134a and HCFC22 is presented. Due to its superior performance in HCFC22-based VARS, dimethyl acetamide is chosen as the solvent for both the refrigerants. It is observed that the HCFC22-based syst

The double-effect vapour absorption refrigeration system working with HFC134a as refrigerant and dimethyl acetamide as absorbent is analysed. Cooling coefficients of performance in the range of 0)5-0)9 could be obtained depending on the operating conditions. However, sub-zero temperatures are diffic

A thermodynamic analysis was performed on a single-stage vapour absorption refrigeration system W A R S ) operating with monochlorodifluouromethane (HCFC22) as a refrigerant and dimethylether of tetraethyleneglycol (DMETEG) or dimethyl acitamide (DMA) as a working fluid. Influence of solution heat e