Omid Ghasemi-Fare
Omid Ghasemi-Fare
Assistant Professor of Civil Engineering, University of Louisville
Verified email at louisville.edu - Homepage
Title
Cited by
Cited by
Year
A practical heat transfer model for geothermal piles
O Ghasemi-Fare, P Basu
Energy and Buildings 66, 470-479, 2013
582013
Laboratory Thermal Performance Tests on a Model Heat Exchanger Pile in Sand
CA Kramer, O Ghasemi-Fare, P Basu
Geotechnical and Geological Engineering, 1-19, 2015
482015
Numerical Modeling of Vertical Geothermal Heat Exchangers Using Finite Difference and Finite Element Techniques
TY Ozudogru, O Ghasemi-Fare, CG Olgun, P Basu
Geotechnical and Geological Engineering, 1-16, 2015
332015
Predictive assessment of heat exchange performance of geothermal piles
O Ghasemi-Fare, P Basu
Renewable Energy 86, 1178-1196, 2016
282016
Investigation of the influence of permeability coefficient on the numerical modeling of the liquefaction phenomenon
A Rahmani, OG Fare, A Pak
Scientia Iranica 19 (2), 179-187, 2012
232012
Influences of ground saturation and thermal boundary condition on energy harvesting using geothermal piles
O Ghasemi-Fare, P Basu
Energy and Buildings 165, 340-351, 2018
202018
Controlling frost heaving in ballast railway tracks using low enthalpy geothermal energy
R Boushehri, S Hasanpour Estahbanati, O Ghasemi-Fare
Transportation Research Board 98th Annual MeetingTransportation Research Board, 2019
122019
An annular cylinder source model for heat transfer through energy piles
O Ghasemi-Fare, P Basu
92nd Transportation Research Board Annual Meeting, 1-12, 2013
102013
Experimental Investigation on the Effects of Temperature on Physical Properties of Sandy Soils
M Joshaghani, O Ghasemi-Fare, M Ghavami
IFCEE 2018, 2018
92018
Thermally-Induced Pore Pressure Fluctuations around a Geothermal Pile in Sand
O Ghasemi-Fare, P Basu
Geo-Chicago 2016, 176-184, 2016
92016
Numerical Modeling of Thermally Induced Pore Water Flow in Saturated Soil Surrounding Geothermal Piles
O Ghasemi-Fare, P Basu
IFCEE 2015, 1668-1677, 2015
92015
Thermal Operation of Geothermal Piles Installed in Sand—A Comparative Assessment Using Numerical and Physical Models
O Ghasemi-Fare, P Basu
IFCEE 2015, 1721-1730, 2015
92015
Role of Thermally-Induced Buoyant Flow in Altering Energy Harvesting Using Geothermal Piles
O Ghasemi-Fare, P Basu
Geotechnical Frontiers 2017, 113-123, 2017
82017
Numerical investigation of the effects of geometric and seismic parameters on liquefaction-induced lateral spreading
O Ghasemi-Fare, A Pak
Soil Dynamics and Earthquake Engineering 89, 233-247, 2016
52016
Reliability-Based Assessment of Sustainable Heat Exchange through Pile Foundations
O Ghasemi-Fare, P Basu, S Banerjee
Geo-Congress 2014 Technical Papers@ sGeo-characterization and Modeling for …, 2014
52014
Determination of allowable bearing capacity of shallow foundation using modified hyperbolic stress-strain model
M Ghavami, MM Tamizdoust, O Ghasemi-Fare
Journal of Applied Geophysics 166, 1-9, 2019
42019
A Study on Thermal Consolidation of Fine Grained Soils Using Modified Consolidometer
M Joshaghani, Omid Ghasemi-Fare
Geo-Congress 2019, 148-156, 2019
42019
Geothermal Energy Harvesting Through Pile Foundations–Analysis-Based Prediction and Performance Assessment
O Ghasemi Fare
42015
‘Numerical analysis of lateral spreading phenomenon and investigation of the effect of ground slope on lateral displacement
O Ghasemi Fare, A Pak
Pan-American CGS Geotechnical Conference, 2011
42011
Analyzing transient heat and moisture transport surrounding a heat source in unsaturated porous media using the Green's function
DY Cherati, O Ghasemi-Fare
Geothermics 81, 224-234, 2019
32019
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