Mathematical Simulation of the Thermodynamic Processes Associated with the Vapour-Injected Scroll Compressor

¹ Center of Technology and Engineering for Nuclear Project, 409, Atomistilor Street, Magurele, Ilfov, Romania, zabeti@router.citon.ro
² Technical University of Civil Engineering Bucharest, 66 Blv. Pache Protopopescu, Bucharest, 021414, Romania, gratiela.tarlea@gmail.com

^* Corresponding author: gratiela.tarlea@gmail.com

Abstract

Both the major energetic crisis and the global warming, which influence the worldwide economy and the future of the society, determine the development of energetic and ecological performances of both the refrigeration equipment and air conditioning systems. Thus, there is a worldwide supported effort made in order to decrease the carbon dioxide emissions resulted from the burning of fossil fuels and the other greenhouse effect gas emissions. This article presents a refrigeration system design model using a vapour injection scroll compressor and tube in tube evaporators working with refrigerant R407C. The refrigerant circuit comprises of a main evaporator, a secondary evaporator (for the injection process), scroll compressor, condenser and five expansion valves. Furthermore it uses R407C as refrigerant. The secondary refrigerant for both the main and the secondary evaporator is a 50% concentration solution of propylene-glycol and water. Secondary circuit comprises of a pump, an electric boiler, an expansion vessel and a by-pass circuit made of many stop valves. The condenser is cooled with mains water.