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Dissertation (Chapter 3 - Models (AMR (AMR Mathematical Model, Analytical…
Dissertation
Chapter 1 - Introduction
Chapter 2 - Literature Review
AMR
Design parameters effects
Length
Width
Height
Frequency
Mass Flow Rate
Magnetic Field
Magnetocaloric effect
Particle diameter
Porosity
Heat transfer fluid
Magnetocaloric effect
Magnets
HEx
System design
Magnetocaloric devices
Chapter 3 - Models
AMR
AMR Mathematical Model
Analytical Model
Pressure Drop
Magnet
Mathematical Model
HEx
Matematical Model
Basic Definition
Equation: L2
Eq. L3
Eq. Beta
Eq.Nfin
Eq. Nfin
Eq. Theta
Fig. Geometric Parameters (Shah)
Model Inputs
Geometric Characteritics
Eq. Amin
Eq.Afr
Eq. Sigma
Eq. Ap, Af, As, At
Eq. Dh
Multicircuit
Thermal Hydraulics
Air side
Eq. Re
Eq. f
Eq. j
Eq. Nu and h
Eq. dP and W
Liquid side
Eq. Re
Eq. f
Eq. Nu and h
Eq. dP and W
Fin
Eq. Efficiency
HEx
Eq. UA
Eq. NTU
Eq. Epsilon
Fan
Head Curves
HEx optimization
Opimization Parameters
Model inputs
FIxed inputs
Optimization goals
Optimization metho
Hydraulics
?
Coupling
AMR Magnet Coupling (R2 and R3)
HEx and AMR magnet
Optimization
Optimization goals
Mass Calculation
Water
Stator
Rotor
MMC
Power calculation
AMR
Magnetization
Pumping
HEx
Cold
Pumping
Fan
Hot
Pumping
Fan
Electrovalves
Actuation
Pumping
Optimization method
HEx Optimization
Optimization Goals
Materials
Mathematical Model
Fluids
Air
Properties
Water and Entek
Properties
Chapter 4 - System design
Paretto Optimal
Power breakdown
Mass Breakdown
Selected system
Chapter 5 - System analysis and improvement
Breakdown
Mass
Power
Exergy analysis
Parameters limiting the power and the efficiency
Chapter 6 - Conclusion
Chapter 3.5 - Model results
AMR Model
Magnet Model
HEx Model
MMC Models