Abstract
A research on different refrigerants with and without influence of the magnetic field is provided in this paper. The magnetic field degree viz is four gauss. The condenser exit row was 3000, 6000, 9000 and 12000 gauss. Magnetic fields at condenser exit lines are found to reduce the consumption of the compressor energy. Through applying magnet fields on R134a, compressor energy savings was observed up to 1.35%, 6.23%, 5.40% and 4.19%, respectively, in gauss levels of 3000, 6000, 9000 and 12000, while R152a savings in energy levels were up 13.10%, 15.59% and 25.86% and R407a saving in power up to 7.3%, 9.19%, 13.05% and 12.40%. The coolant R152a saves energy in contrast to other coolant compressors. As the magnetic field strength increases, a vapor refrigeration system decreases the energy consumption of the compressor.
Highlights
IntoductionMagnetic field effects on refrigerants are determined by its chemical composition and physical thermal properties such as viscosity, surface tension, thermal conductivity and heat
A research on different refrigerants with and without influence of the magnetic field is provided in this paper
To research the effect on compressor energy when the magnetic force is applied on the condenser exit line and the increased magnetic power order
Summary
Magnetic field effects on refrigerants are determined by its chemical composition and physical thermal properties such as viscosity, surface tension, thermal conductivity and heat. The magnetic effect on the condensing outlet tube increases the cooling effect and reduces the compressor power. When the condenser has been magnetically applied, its cooling properties are modified and the evaporation frequency of liquid coolant is increased. The growing magnetic strength reduces compressor power and increases COP. The effect of the magnetic field on the refrigerant mixes depends on the composition and boiling point of the mixture. As the magnet strength increases, the effect of the magnetic field on hydrocarbon, viscosity and surrounding pressure decreases with increasing mass flow rate and heat transfer in the condenser and evaporator.
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