Experimental Investigation of Vapor Compression Refrigeration System Performance Using Nano-Refrigerant

Abstract:      Experimental investigation of vapor compression refrigeration system performance using Nano-refrigerant is presented in this work. Nano-refrigerant was prepared in current work by mixing 50 nanometers diameter of copper oxide CuO nanoparticles with Polyolester lubrication oil and added to the compressor of the refrigeration system to be mixed with pure refrigerant R-134a during its circulation through refrigeration system. Three concentrations (0.1%, 0.25%, and 0.4%) of CuO-R134 a Nano-refrigerant… Show more

“…The choice, purity, and type of refrigerant used in VCRS directly influence the COP [10][11][12][13]. Refrigerants exhibit varying chemical and thermophysical properties, and their environmental impact also differs significantly.…”

Evaluating Refrigerant Purity Characteristics: An Experimental Approach to Assess Impact on Vapor-Compression Refrigeration System Performance

“…The choice, purity, and type of refrigerant used in VCRS directly influence the COP [10][11][12][13]. Refrigerants exhibit varying chemical and thermophysical properties, and their environmental impact also differs significantly.…”

Evaluating Refrigerant Purity Characteristics: An Experimental Approach to Assess Impact on Vapor-Compression Refrigeration System Performance

Thermodynamic performance analysis and environmental impact assessment of cascade refrigeration cycles using eco-friendly nano-refrigerants

Experimental investigation for the effect of using CuO/PAG nano-lubricant on the coefficient of performance in a VCR system