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All issues Volume 294 (2021) E3S Web Conf., 294 (2021) 03001 References
Open Access
Issue
E3S Web Conf.
Volume 294, 2021
2021 6th International Conference on Sustainable and Renewable Energy Engineering (ICSREE 2021)
Article Number 03001
Number of page(s) 5
Section Refrigeration Technology and Energy Efficiency Analysis
DOI https://doi.org/10.1051/e3sconf/202129403001
Published online 26 July 2021
  1. V Pecharsky, K GschneidnerJr, “Magnetocaloric effect and magnetic refrigeration, ” Journal of Magnetism and Magnetic Materials, vol. 200, no. 13, pp. 44-56, (1999) [Google Scholar]
  2. A Kitanovski, U Plaznic, J Tusek, A Poredos, “New thermodinamic cycles for magnetic refrigeration, ” International Journal of Refrigeration, vol. 37, pp. 2835, (2014) [Google Scholar]
  3. B Wolf et al, “Magnetocaloric effect and magnetic cooling near a field induced quantum critical point, ” National Academy Sciences, vol. 108, no. 17, pp. 6862-6866, (2011) [Google Scholar]
  4. A Kitanovski, “Energy Applications of Magnetocaloric, ” Advanced Energy Materials, vol. 10, no. 10, (2020) [Google Scholar]
  5. P Shirron, “Applications of the magnetocaloric effect in single stage, multi stage and continuos adiabatic demagnetization refrigerators, ” Cryogenics, vol. 62, pp. 130-139, (2014) [Google Scholar]
  6. V Basso, “Basics of the magnetocaloric effect, ” (2013) [Google Scholar]
  7. V Pecharsky, K GschneidnerJr, “Giant Magnetocaloric Effect in Gd5(Si2Ge2), ” Physical Reciew Letters, vol. 78, pp. 4494-4497, (1997) [Google Scholar]
  8. Botoc Dorin, Jurij Avsec, Adrian Plesca, “The efficiency of magnetic refrigeration and a comparison with compressor refrigeration systems, ” Journal of Energy Technology, vol. 11, pp. 59-69, (2018) [Google Scholar]
  9. A Tusek, A Kitanovski, S Zupan et al, „A comprehensive experimental analysis of gadolinium active magnetic regenerators, ” Appl Therm Eng, nr. 53:57-66, (2013) [Google Scholar]
  10. B Dorin, J Avsec, A Plesca, „A regenerator used in the installation of magnetic refrigeration devices, ” Journal of Energy Technology, vol. 13, nr. 3, pp. 5766, (2020) [Google Scholar]
  11. J Tusek, A Kitanovski, I Prebil et al, „Dynamic operation of an active magnetic regenerator (AMR): numerical optimization of a packed-bed AMR, ” Int J Refrig, nr. 34:1507-1517, (2011) [Google Scholar]
  12. T D Alan Nakashima, F P Fortkamp, M Natalia et al, „A magnetic wine cooler prototyp, ” Int J Refrig, vol. 122, pp. 110-121, (2021) [Google Scholar]
  13. A Tura, A Rowe, „Permanent magnet magnetic refrigerator design and experimental characterization, ” Int J Refrig, nr. 34(3):628-639, (2011) [Google Scholar]
  14. DS Arnold, A Tura, A Ruebsaat-Trott et al, „Design improvements of a permanent magnet active magnetic refrigerator, ” Int J Refrig, nr. 37:99-105, (2014) [Google Scholar]
  15. S Lionte, C Vasile, M Siroux, „Numerical analysis of a reciprocating active magnetic regenerator, ” App Ther Engineering, pp. 1-9, 2014 [Google Scholar]
  16. V Basso, CP Sasso, G Bertotti et al, „Effect of material hysteresis in magnetic refrigeration cycle, ” Int J Refrig, nr. 29:1358-1365, (2006) [Google Scholar]
  17. A Kitanovski, U Plaznic, J Tusek et al, „New thermodinamic cycle for magnetic refrigeration, ” Int J Refrig, nr. 37:28-35, (2014) [Google Scholar]

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