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13. Egolf PW, Kitanovski A, Vuarnoz A et al (2008) Magnetic groundsource heat
pump
-
optimized prototype. End year report, Swiss Federal Of
ce of Energy, p 12
14. Vuarnoz D, Kitanovski A, Gonin C et al (2010) Modeling of a two-stage magnetic
refrigerator with wavy-structure gadolinium heat exchangers. Int J Refrig 33(4):745
-
752
15. Kitanovski A, Egolf PW, Poredo
š
A (2012) Rotary magnetic chillers with permanent
magnets. Int J Refrig 35(4):1055
1066
-
16. Tu
ek J, Kitanovski A, Prebil I et al (2011) Dynamic operation of an active magnetic
regenerator
š
(AMR): numerical optimization of a packed-bed AMR.
Int
J Refrig
34:1507
1517
-
17. Tu
A (2013) Geometrical optimization of packed-bed and
parallel-plate active magnetic regenerators. Int J Refrig 36:1456
š
ek J, Kitanovski A, Poredo
š
1464
-
18. Bj
uence of the magnetic
eld on the performance of an
active magnetic regenerator (AMR). Int J Refrig 34:192
ø
rk R, Engelbrecht K (2011) The in
fl
203
-
19. Tu
ek J (2012) Thermomagnetic properties of active magnetic regenerator (In Slovene). PhD
thesis, University of Ljubljana, Faculty of Mechanical Engineering, Slovenija
20. Tsukagoshi T, Matsumoto K, Hashimoto T et al (1997) Optimum structure of multilayer
regenerator with magnetic materials. Cryogenics 37:11
-
14
21. Richard MA, Rowe A, Chahine R (2004) Magnetic refrigeration: single and multimaterial
active magnetic regenerator experiments. J Appl Phys 95(4):2146
-
2150
22. Rowe A, Tura A (2006) Experimental
š
investigation of a three-material
layered active
magnetic regenerator. Int J Refrig 29:1286
-
1293
23. Zimm C, Boeder A, Chell J et al (2006) Design and performance of a permanent magnet
rotary refrigerator. Int J Refrig 29(8):1302
1306
24. Jacobs S (2009) Modeling and optimal design of a multiplayer active magnetic refrigeration
system. Paper presented at the 3rd international conference of IIR on magnetic refrigeration
at room temperature, Des Moines, Iowa, USA, 11
-
273
25. Nielsen KK, Bahl CRH, Engelbrecht K et al (2010) Numerical modeling of graded active
magnetic regenerators. Paper presented at the 4th international conference of IIR on magnetic
refrigeration at room temperature, Baotou, Inner Mongolia, China, 23
15 May 2009, pp 267
-
-
28 Aug 2010,
-
453
26. Russek S, Auringer J, Boeder A et al (2010) The performance of a rotary magnet magnetic
refrigeration with layered beds. Paper presented at the 4th international conference of IIR on
magnetic refrigeration at room temperature, Baotou, Inner Mongolia, China, 23
pp 445
-
-
28 Aug
2010, pp 339
-
349
27. Aprea C, Greco A, Maiorino A (2011) A numerical analysis of an active magnetic
regenerative refrigerant system with a multi-layer regenerator. Energy Convers Manage 52
(1):97
-
107
28. Engelbrecht K, Nielsen KK, Bahl CRH (2011) Experimental results for a magnetic
refrigerator using three different types of magnetocaloric material regenerators. Int J Refrig
34(4):1132
-
1140
29. Aprea C, Greco A, Maiorino A (2013) The use of the rst and of the second order phase
magnetic transition alloys for an AMR refrigerator at room temperature: a numerical analysis
of the energy performances. Energy Convers Manage 70(1):40
55
30. Legait U, Guillou F, Kedous-Lebouc A et al (2014) An experimental comparison of four
magnetocaloric regenerators using three different materials. Int J Refrig 37:147
-
155
-
31. Tu
š
ek J, Kitanovski A, Tomc U (2014) Experimental comparison of multi-layered
La
Si and single-layered Gd active magnetic regenerators for use in a room-
temperature magnetic refrigerator. Int J Refrig 37:117
Fe
Co
-
-
-
126
-
32. Bj
rk R, Bahl CRH, Katter M (2010) Magnetocaloric properties of LaFe
13-x-y
Co
x
Si
y
and
commercial grade Gd. J Magn Magn Mater 322:3882
ø
3888
33. Nielsen KK, Tu
š
ek J, Engelbrecht K et al (2011) Review on numerical modeling of active
magnetic regenerators for room temperature applications. Int J Refrig 34:603
-
616
34. Yan Z, Chen Y (1992) The effect of
eld-dependent heat capacity on the characteristics of the
ferromagnetic Ericsson refrigeration cycle. J Appl Phys 72(1):1
-
5
-
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