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HomeSolid State PhenomenaSolid State Phenomena Vol. 257Transition Metal Based Magneto Caloric Materials...

Transition Metal Based Magneto Caloric Materials for Energy Efficient Heat Pumps

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Abstract:

Magnetic refrigeration near room temperature is considered as an environmentally benign alternative for the current compressor-based cooling technology. Two materials that are based on ferromagnetic transition metal compounds are considered as the most promising candidates to be used in real world applications. Here we discuss the main features of these materials.

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Periodical:

Solid State Phenomena (Volume 257)

Pages:

129-134

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.257.129

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Online since:

October 2016

Authors:

Ekkes Brück*, Hargen Yibole, Van Thang Nguyen, Xue Fei Miao, Maurits Boeije, Niels van Dijk

Keywords:

Fe₂P, La(Fe,Si)₁₃, Magnetic Refrigeration, Magnetocaloric Effect, Transition Metal Compounds

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© 2017 Trans Tech Publications Ltd. All Rights Reserved

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[1] US energy information administration, Residential Energy Consumption Survey (RECS), (2013).

[2] G.J.M. Velders, D.W. Fahey, J.S. Daniel, M. McFarland and O. Andersen, Proc. Natl. Acad. Sci. U.S.A. 106 (2009) p.10949.

[3] V. Franco, J.S. Blazquez, B. Ingale and A. Conde, Annu. Rev. Mater. Res. 42 (2012) p.305.

[4] BASF, Premiere of cutting-edge magnetocaloric cooling appliance, https: /www. youtube. com/watch?v=Py9IaztpKzs, (2015).

[5] E. Brück, J. Phys. D Appl. Phys. 38 (2005) p. R381.

[6] O. Beckman, L. Lundgren, P. Nordblad1, P. Svedlindh, A. Törne, Y. Andersson and S. Rundqvist, Physica Scripta 25 (1982) p.679.

DOI: 10.1088/0031-8949/25/6a/005

[7] T.T.M. Palstra, J.A. Mydosh, G.J. Nieuwenhuys, A.M. van der Kraan and K.H.J. Buschow, J. Magn. Magn. Mater. 36 (1983) p.290.

[8] M.E. Gruner, W. Keune, R.C. B., C. Weis, J. Landers, S.I. Markarov, D. Klar, M.Y. Hu, E.E. Alp, J. Zhao, M. Krautz, O. Gutfleisch and H. Wende, Phys Rev Lett 114 (2015) p.057202.

DOI: 10.1103/physrevlett.114.057202

[9] N.H. Dung, Z.Q. Ou, L. Caron, L. Zhang, D.T.C. Thanh, G.A. de Wijs, R.A. de Groot, K.H.J. Buschow and E. Bruck, Advanced Energy Materials 1 (2011) p.1215.

DOI: 10.1002/aenm.201100252

[10] E. Brück, O. Tegus, L. Zhang, X.W. Li, F.R. de Boer and K.H.J. Buschow, J. Alloys and Compounds 383 (2004) p.32.

DOI: 10.1016/j.jallcom.2004.04.042

[11] D.T.C. Thanh, E. Brück, N.T. Trung, J.C.P. Klaasse, K.H.J. Buschow, Z.Q. Ou, O. Tegus and L. Caron, J. Appl. Phys. 103 (2008) p. 07B318.

DOI: 10.1063/1.2836958

[12] F. Guillou, G. Porcari, H. Yibole, N. van Dijk and E. Brück, Advanced Materials 26 (2014) p.2671.

DOI: 10.1002/adma.201304788

[13] H. Yibole, F. Guillou, L. Zhang, N.H. van Dijk and E. Brück, Journal of Physics D-Applied Physics 47 (2014) p.075002.

[14] F. Guillou, H. Yibole, G. Porcari, L. Zhang, N.H. van Dijk and E. Brück, Journal of Applied Physics 116 (2014) p.063903.

DOI: 10.1063/1.4892406

[15] F. Guillou, H. Yibole, N.H. van Dijk, L. Zhang, V. Hardy and E. Brück, Journal of Alloys and Compounds 617 (2014) p.569.

DOI: 10.1016/j.jallcom.2014.08.061

[16] N.V. Thang, X.F. Miao, N.H. van Dijk and E. Brück, Journal of Alloys and Compounds 670 (2016) p.123.

[17] H. Ido, J.C. Sohn, F. Pourarian, S.F. Cheng and W.E. Wallace, Journal of Applied Physics 67 (1990) p.4978.

[18] B.R. Hansen, L.T. Kuhn, C.R.H. Bahl, M. Lundberg, C. Ancona-Torres and M. Katter, JMMM 322 (2010) p.3447.

[19] A. Fujita, S. Fujieda, Y. Hasegawa and K. Fukamichi, Phys. Rev. B 67 (2003) p.104416.

[20] O.L. Baumfeld, Z. Gercsi, M. Krautz, O. Gutfleisch and K.G. Sandeman, Journal of Applied Physics 115 (2014) p.4.

[21] V. Basso, M. Kuepferling, C. Curcio, C. Bennati, A. Barzca, M. Katter, M. Bratko, E. Lovell, J. Turcaud and L.F. Cohen, Journal of Applied Physics 118 (2015) p.053907.

DOI: 10.1063/1.4928086

[22] A. Barcza, M. Katter, V. Zellmann, S. Russek, S. Jacobs and C. Zimm, Ieee Transactions on Magnetics 47 (2011) p.3391.

DOI: 10.1109/tmag.2011.2147774

[23] L. Caron, Z.Q. Ou, T.T. Nguyen, D.T.C. Thanh, O. Tegus and E. Brück, JMMM 321 (2009) p.3559.

[24] G. Porcari, M. Buzzi, F. Cugini, R. Pellicelli, C. Pernechele, L. Caron, E. Brück and M. Solzi, Review of Scientific Instruments 84 (2013) p.073907.

DOI: 10.1063/1.4815825

[25] S.Y. Dankov, A.M. Tishin, V.K. Pecharsky and K.A. Gschneider, Review of Scientific Instruments 68 (1997) p.2432.

[26] H. Yibole, Nature of the first-order magnetic phase transition in giant-magnetocaloric materials, in PhD thesis, Delft University of Technology, (2016).

[27] S.L. Russek and C.B. Zimm, International Journal Of Refrigeration-Revue Internationale Du Froid 29 (2006) p.1366.

[28] M.E. Wood and W.H. Potter, Cryogenics, 25 (1985) p.667.

[29] A. Kitanovski and P.W. Egolf, International Journal Of Refrigeration-Revue Internationale Du Froid 29 (2006) p.3.