Layers
20. Tsukagoshi T, Matsumoto K, Hashimoto T et al (1997) Optimum structure
of multilayer regenerator with magnetic materials. Cryogenics 37:11–14
Alloys
Optimization of compounds
[3] A.M. Tishin, Y.I. Spichkin, The Magnetocaloric Effect and its
Applications, IOP Publishing, Bristol and Philadelphia, 2003.
[4] S.A. Nikitin, A.S. Andreenko, G.E. Chuprikov, Vesten. Mosk. Univ.
Ser. 3 22 (1981) 64.
-Calculus
--Smith, A., Nielsen, K.K., 2010. The demagnetizing field of
a nonuniform rectangular prism. J. Appl. Phys. 107 (10),
103910.
[84] Balli M, Allab F, Dupuis C, Fruchart D, Gignoux D, Kedous-Lebouc A, Fournier JM, Yonnet JP. Analysis and modelling of magnetocaloric effect
near magnetic phase transition temperature. In: Second IIF-IIR international conference on magnetic refrigeration at room temperature,
Portozm Slovenia, 11–13 April; 2007.
New multilayers
Ok
M.-A. Richard, A. Rowe, R. Chahine, Magnetic refrigeration:
single and multi-material active magnetic regenerator experiments,
Journal of Applied Physics 95 (2004) 2146e2150
Okamura, T., Yamada, K., Hirano, N., Nagaya, S., 2006.
Performance of a room-temperature rotary magnetic
refrigerator. Int. J. Refrigeration 29, 1327e1331.
For things to do
F. Shir, C. Mavriplis, L. Bennett, E. Torre, Analysis of room
temperature magnetic regenerative refrigeration, International
Journal of Refrigeration 28 (2005) 616e627
Otros
Zheng, Z.G., Yu, H.Y., Zhong, X.C., Zeng, D.C., Liu, Z.W., 2009.
Design and performance study of the active magnetic
refrigerator for room-temperature application. Int. J.
Refrigeration 32, 78e86.
Engelbrecht, K.L., Nellis, G.F., Klein, S.A., Zimm, C.B., 2007. Recent
developments in room temperature active magnetic
regenerative refrigeration. HVAC R Res. 13, 525e542.
Engelbrecht, K.L., Nellis, G.F., Klein, S.A., 2006. Predicting the
performance of an active magnetic regenerator refrigerator
used for space cooling and refrigeration. HVAC R Res. 12,
1077e1095.
Kawanami, T., Hirano, S., Fumoto, K., Hirasawa, S., 2011.
Evaluation of fundamental performance on magnetocaloric
cooling with active magnetic regenerator. Appl. Therm. Eng.
31 (6e7), 1176e1183.
Aprea, C., Greco, A., Maiorino, A., 2013. A dimensionless
numerical analysis for the optimization of an active magnetic
regenerative refrigerant cycle. Int. J. Energy Res. 37 (12),
1475e1487.
Performance metrics
Rowe, A., 2009. Performance metrics for active magnetic
refrigerators. In: Proceedings of the 3rd International
Conference on Magnetic Refrigeration at Room Temperature,
Des Moines, Iowa, USA, pp. 195e205.
For Magnetization
51. Liu M, Yu B (2011) Numerical investigations on internal temperature distribution and
refrigeration performance of reciprocating active magnetic regenerator of room temperature
magnetic refrigeration. Int J Refrig 34(3):617–627
37] Bozoroth RM. Energy, specific heat, and magnetocaloric effect, ferromagnetism.
New Jersey: D. Van Nostrand Company; 1956. p. 729–44.
[38] Shir F, Della Torre E, Bennett LH, Mavriplis C, Shull RH. Modelling of
magnetization and demagnetization in magnetic regenerative refrigeration.
IEEE Trans Magn 2004;40:2098–100.
MFT
16. Tušek J, Kitanovski A, Prebil I et al (2011) Dynamic operation of an active magnetic
regenerator (AMR): numerical optimization of a packed-bed AMR. Int J Refrig
34:1507–1517
47. Morrish AH (1965) The physical principles of magnetism. Wiley, New York
48. Ashcroft NW, Mermin D (1976) Solid state physics. Saunders College, New York
49. Petersen TF, Pryds N, Smith A et al (2008) Two-dimensional mathematical model of a
reciprocating room temperature active magnetic regenerator. Int J Refrig 31:432–443
Interesting suggestion about MCE and dT
Rowe, A.M., Barclay, J.A., 2003. Ideal magnetocaloric effect for
active magnetic regenerators. J. Appl. Phys. 93, 1672e1676.
Rotating
Lozano, J.A., Engelbrecht, K., Bahl, C.R.H., Nielsen, K.K.,
Barbosa, J.R., Prata, A.T., Pryds, N., 2014. Experimental and
numerical results of a high frequency rotating active magnetic
refrigerator. Int. J. Refrigeration 37, 92e98.