MAGNETOCALORIC EFFECT AND MAGNETOCALORIC COOLING TECHNOLOGIES

Sultanov Mehriddin

Authors

Sultanov Mehriddin Tashkent State Transport University Electrical systems and complexes Master

Keywords:

magnetocaloric effect, magnetocaloric refrigeration, ferromagnetic materials, magnetic field, energy efficiency, ecological refrigeration technologies, refrigeration cycle, transport refrigeration systems.

Abstract

This article analyzes the physical nature of the magnetocaloric effect and the principle of operation of magnetocaloric cooling technologies based on it. The magnetocaloric effect, which is associated with a change in the temperature of some ferromagnetic materials under the influence of a magnetic field, is considered a promising direction for creating energy-efficient and environmentally friendly cooling systems. The study highlights the main properties of magnetocaloric materials, cooling cycles, and their advantages over traditional vapor-compressor cooling systems. The possibilities of increasing energy efficiency, eliminating harmful refrigerants, and applying magnetocaloric cooling technologies in the transport and industrial sectors are also analyzed on a scientific basis.

References

1. Gschneidner KA, Pecharsky VK Magnetocaloric materials. Annual Review of Materials Science , 2000.

2. Pecharsky VK, Gschneidner KA Magnetocaloric effect and magnetic refrigeration. Journal of Magnetism and Magnetic Materials , 2001.

3. Franco V., Blázquez JS, Ingale B., Conde A. The magnetocaloric effect and magnetic refrigeration near room temperature. Progress in Materials Science , 2012.

4. Tegus O., Brück E., Buschow KHJ, de Boer FR Transition-metal-based magnetic refrigerants. Nature , 2002.

5. Yu B., Liu M., Egolf PW, Kitanovski A. A review of magnetic refrigeration technology. International Journal of Refrigeration , 2010.

MAGNETOCALORIC EFFECT AND MAGNETOCALORIC COOLING TECHNOLOGIES

Authors

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section