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2 2020

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Critical evaluation of R134a, R1234yf and R744 in passenger car cooling systems

Grygierzec Jan, Werle Sebastian

Journal of Power Technologies

2020

Vol. 100, nr 3

232--239

The Montreal Protocol on ozone-depleting substances and the Kyoto Protocol to the United Nations Framework Convention on Climate Change are affecting the refrigeration industry. Both documents have banned the use of substances responsible for ozone depletion and global warming. The automotive industry must keep up with these changes. The design of cooling systems in cars must meet the requirements of new refrigerants. In addition, changing the production profile of large car companies towards electric and hybrid cars increases this need. This development has a significant impact on the solutions installed in passenger vehicles. The paper presents a critical assessment of R134a, R1234yf, and R744 in passenger car heat pump systems. The possibility of their use in common air conditioning systems with motor drive and in the heat pump of an electric vehicle was presented. The calculation algorithm of the heat pump system has been developed, showing the influence of the physical properties of refrigerants on efficiency during the process of the designed heat pump system. The impact of using new refrigerants in the car production process has been analyzed and commented on. The influence of thermodynamic and ecological properties of refrigerants on the process of designing a heat pump system using a calculation model was described. Types of heat pump in electric cars and a calculation model were presented.

Critical analysis of the functioning of test benches dedicated to testing heat pumps in electric vehicles

Grygierzec Jan, Werle Sebastian

Ecological Chemistry and Engineering. A

2020

Vol. 27, nr 1-2

1--10

Changes in the automotive industry to bring more electric and hybrid cars to market have a significant impact on the type of heating and cooling systems for vehicles. The work done so far in this area shows the considerable impact of these systems on vehicle coverage. This is due, among other things, to the fact that air conditioning systems in electric and hybrid cars have additional tasks, such as keeping the battery temperature at the right temperature. Studies also show that heating and cooling systems based on heat pump systems have the highest efficiency. The development of such systems, however, depends on a properly planned test phase under widely varying boundary conditions. Such research allows to limit the negative impact of heating and cooling systems on the range of electric cars under real operating conditions and can contribute significantly to the popularity of electric vehicles. The aim of this work is to develop a test bench concept for testing heat pumps used in electric vehicles. The impact of the assumed boundary conditions on individual system components is presented. On the basis of two examples of test stands, a critical assessment of the effectiveness of the applied methodology was made. Differences in individual systems were indicated, and the own concept of the test bench for testing heat pumps for variable input parameters was presented.