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Multi-physics model of a thermo-magnetic energy harvester
Keyur B. Joshi,
Shashank Priya
Research output
:
Contribution to journal
›
Article
›
peer-review
32
Scopus citations
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Dive into the research topics of 'Multi-physics model of a thermo-magnetic energy harvester'. Together they form a unique fingerprint.
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Keyphrases
Heat Transfer
100%
Magnetic Force
100%
Multiphysics Model
100%
Thermomagnetic
100%
Soft Magnets
100%
Magnetic Energy Harvester
100%
Bifurcation
50%
Generated Power
50%
Energy Harvesting
50%
External Load
50%
Gadolinium
50%
Transient Behavior
50%
Relevant Parameters
50%
Gap Distance
50%
Contact Surface
50%
Thermal Gradient
50%
Device Parameters
50%
Heat Transfer Surface
50%
Contact Pressure
50%
Internal Temperature
50%
Vibrating Beam
50%
Vibration Frequency
50%
Energy Harvesting System
50%
Maximum Power
50%
Piezoelectric Bimorph
50%
Piezoelectric Energy Harvesting
50%
Thermal Contact Conductance
50%
Beam Structure
50%
Contact Stiffness
50%
Optimum Solution
50%
Limit Cycle Behavior
50%
Hard Magnets
50%
Contact Temperature
50%
Pressure Transfer
50%
Harvester System
50%
Multi-physics numerical Model
50%
Beam Vibration
50%
Contact Gap
50%
Spring Material
50%
Gradient Condition
50%
Low Temperature Gradient
50%
Engineering
Magnetic Energy
100%
Harvester
100%
Piezoelectric
66%
Magnetic Force
66%
Internals
33%
Energy Engineering
33%
Transients
33%
External Load
33%
Low-Temperature
33%
Contact Surface
33%
Thermal Gradient
33%
Heat Transfer Surface
33%
Temperature Gradient
33%
Contact Pressure
33%
Energy Harvesting
33%
Beam Structure
33%
Contact Stiffness
33%
Optimum Solution
33%
Generate Electricity
33%
Contact Conductance
33%
Frequency Vibration
33%
Numerical Model
33%
Limit Cycle
33%
Complete Cycle
33%
Material Science
Piezoelectricity
100%
Soft Magnet
66%
Gadolinium
33%
Chemical Engineering
Thermal Gradient
100%
Gadolinium
50%