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Publication 55

Thermodynamics of Energy Conversion via First Order Phase Transformation in Low Hysteresis Magnetic Materials

Authors:

MinnesotaYintao Song
Aerospace Engineering and Mechanics
University of Minnesota
Minnapolis, MN


MinnesotaKanwal Preet Bhatti
Aerospace Engineering and Mechanics and Chemical Engineering and Materials Science
University of Minnesota
Minnapolis, MN


MinnesotaVijay Srivastava
Aerospace Engineering and Mechanics, University of Minnesota, Minnapolis, MN
Current address: GE Global Research Center, 1 Research Circle, Niskayuna, NY


MinnesotaC. Leighton
Department of Chemical Engineering and Materials Science
University of Minnesota
Minneapolis, Minnesota


MinnesotaRichard D. James
Aerospace Engineering and Mechanics
University of Minnesota, Minneapolis, MN 55455


Abstract:
We investigate the thermodynamics of first order non-ferromagnetic to ferromagnetic phase transformation in low thermal hysteresis alloys with compositions near Ni_{44}Co_6Mn_{40}Sn+{10} as a basis for the study of multiferroic energy conversion. We develop a Gibbs free energy function based on magnetic and calorimetric measurements that accounts for the magnetic behavior and martensitic phase transformation. The model predicts temperature and field induced phase transformations in agreement with experiments. The model is used to analyze a newly discovered method for the direct conversion of heat to electricity [Srivastava etal., Adv.EnergyMater., 2011, 1, 97], which is suited for the small temperature difference regime, about 10-100 K. Using the model, we explore the efficiency of energy conversion thermodynamic cycles based on this method. We also explore the implications of these predictions for future alloy development. Finally, we relate our simple free energy to more sophisticated theories that account for magnetic domains, demagnetization effects, the crystallography of martensitic phase transformations and twinning.
Get the paper in its entirety
ThermodynamicsEnergyJames.pdf

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