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Troy Farrell
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Cited by
Year
Predicting active material utilization in LiFePO4 electrodes using a multiscale mathematical model
S Dargaville, TW Farrell
Journal of the Electrochemical Society 157 (7), A830, 2010
1552010
Multiphase porous media model for intermittent microwave convective drying (IMCD) of food
C Kumar, MUH Joardder, TW Farrell, MA Karim
International Journal of Thermal Sciences 104, 304-314, 2016
1482016
Mathematical model for intermittent microwave convective drying of food materials
C Kumar, MUH Joardder, TW Farrell, GJ Millar, MA Karim
Drying technology 34 (8), 962-973, 2016
1302016
A physics-based distributed-parameter equivalent circuit model for lithium-ion batteries
Y Li, M Vilathgamuwa, T Farrell, NT Tran, J Teague
Electrochimica Acta 299, 451-469, 2019
1142019
Micropolar flow over a porous stretching sheet with strong suction or injection
NA Kelson, TW Farrell
International Communications in Heat and Mass Transfer 28 (4), 479-488, 2001
842001
Development of a degradation-conscious physics-based lithium-ion battery model for use in power system planning studies
Y Li, M Vilathgamuwa, TW Farrell, NT Tran, J Teague
Applied Energy 248, 512-525, 2019
622019
Investigation of intermittent microwave convective drying (IMCD) of food materials by a coupled 3D electromagnetics and multiphase model
C Kumar, MUH Joardder, TW Farrell, MA Karim
Drying Technology 36 (6), 736-750, 2018
622018
A porous media transport model for apple drying
C Kumar, MUH Joardder, TW Farrell, GJ Millar, A Karim
Biosystems engineering 176, 12-25, 2018
572018
Fundamental understanding of cellular water transport process in bio-food material during drying
MIH Khan, T Farrell, SA Nagy, MA Karim
Scientific Reports 8 (1), 15191, 2018
492018
Model order reduction techniques for physics-based lithium-ion battery management: A survey
Y Li, D Karunathilake, DM Vilathgamuwa, Y Mishra, TW Farrell, C Zou
IEEE Industrial Electronics Magazine 16 (3), 36-51, 2021
452021
The persistence of phase-separation in LiFePO4 with two-dimensional Li+ transport: The Cahn–Hilliard-reaction equation and the role of defects
S Dargaville, TW Farrell
Electrochimica Acta 94, 143-158, 2013
452013
Primary Alkaline Battery Cathodes A Three‐Scale Model
TW Farrell, CP Please, DLS McElwain, DAJ Swinkels
Journal of the Electrochemical Society 147 (11), 4034, 2000
432000
Optimal catalyst thickness in titanium dioxide fixed film reactors: Mathematical modelling and experimental validation
M Vezzoli, T Farrell, A Baker, S Psaltis, WN Martens, JM Bell
Chemical engineering journal 234, 57-65, 2013
412013
Mathematical modelling and numerical simulation of phosphine flow during grain fumigation in leaky cylindrical silos
ZM Isa, TW Farrell, GR Fulford, NA Kelson
Journal of Stored Products Research 67, 28-40, 2016
402016
A mathematical model for the anodic half cell of a dye-sensitised solar cell
M Penny, T Farrell, G Will
Solar energy materials and solar cells 92 (1), 24-37, 2008
402008
A Padé approximate model of lithium ion batteries
NT Tran, M Vilathgamuwa, T Farrell, Y Li, J Teague
Journal of The Electrochemical Society 165 (7), A1409, 2018
362018
A comparison of mathematical models for phase-change in high-rate LiFePO4 cathodes
S Dargaville, TW Farrell
Electrochimica Acta 111, 474-490, 2013
352013
A computationally efficient coupled electrochemical-thermal model for large format cylindrical lithium ion batteries
NT Tran, T Farrell, M Vilathgamuwa, Y Li
Journal of The Electrochemical Society 166 (13), A3059, 2019
342019
Comparing charge transport predictions for a ternary electrolyte using the Maxwell–Stefan and Nernst–Planck equations
STP Psaltis, TW Farrell
Journal of The Electrochemical Society 158 (1), A33, 2010
312010
Comparing charge transport predictions for a ternary electrolyte using the Maxwell–Stefan and Nernst–Planck equations
STP Psaltis, TW Farrell
Journal of The Electrochemical Society 158 (1), A33, 2010
312010
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