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Saeid Seddegh
Saeid Seddegh
Verified email at utas.edu.au - Homepage
Title
Cited by
Cited by
Year
A comparative study of thermal behaviour of a horizontal and vertical shell-and-tube energy storage using phase change materials
S Seddegh, X Wang, AD Henderson
Applied Thermal Engineering 93, 348-358, 2016
3422016
Solar domestic hot water systems using latent heat energy storage medium: a review
S Seddegh, X Wang, AD Henderson, Z Xing
Renewable and Sustainable energy reviews 49, 517-533, 2015
2232015
Numerical investigation of heat transfer mechanism in a vertical shell and tube latent heat energy storage system
S Seddegh, X Wang, AD Henderson
Applied thermal engineering 87, 698-706, 2015
1582015
Investigation of the effect of geometric and operating parameters on thermal behavior of vertical shell-and-tube latent heat energy storage systems
S Seddegh, X Wang, MM Joybari, F Haghighat
Energy 137, 69-82, 2017
1512017
Heat transfer enhancement of phase change materials by fins under simultaneous charging and discharging
MM Joybari, F Haghighat, S Seddegh, AA Al-Abidi
Energy Conversion and Management 152, 136-156, 2017
1422017
Comparison of heat transfer between cylindrical and conical vertical shell-and-tube latent heat thermal energy storage systems
S Seddegh, SSM Tehrani, X Wang, F Cao, RA Taylor
Applied Thermal Engineering 130, 1349-1362, 2018
1342018
Experimental and numerical characterization of natural convection in a vertical shell-and-tube latent thermal energy storage system
S Seddegh, MM Joybari, X Wang, F Haghighat
Sustainable cities and society 35, 13-24, 2017
992017
Numerical investigation of a triplex tube heat exchanger with phase change material: Simultaneous charging and discharging
MM Joybari, F Haghighat, S Seddegh
Energy and buildings 139, 426-438, 2017
902017
Experimental investigation of multiple tube heat transfer enhancement in a vertical cylindrical latent heat thermal energy storage system
MM Joybari, S Seddegh, X Wang, F Haghighat
Renewable Energy 140, 234-244, 2019
722019
Sensitivity analysis of design parameters for erythritol melting in a horizontal shell and multi-finned tube system: Numerical investigation
R Anish, MM Joybari, S Seddegh, V Mariappan, F Haghighat, Y Yuan
Renewable Energy 163, 423-436, 2021
332021
Natural convection characterization during melting of phase change materials: Development of a simplified front tracking method
MM Joybari, F Haghighat, S Seddegh
Solar energy 158, 711-720, 2017
322017
Simultaneous charging and discharging of phase change materials: Development of correlation for liquid fraction
MM Joybari, F Haghighat, S Seddegh, Y Yuan
Solar Energy 188, 788-798, 2019
262019
Thermodynamic analysis of triple effect absorption refrigeration systems
S Sedigh, H Saffari
International Journal of Energy & Technology 7, 1-8, 2012
82012
Thermodynamic analysis of series and parallel flow water/lithium bromide double effect absorption system with two condensers
S Sedigh, H Saffari
Journal of Materials Science and Engineering. B 1 (2B), 206, 2011
62011
Thermodynamic analysis of double effect absorption system along with boiler and cooling tower
S Sedigh, H Saffari, H Taleshbahrami
Journal of Environmental Science and Engineering. A 1 (2A), 2012
52012
Exergy analysis of the triple effect parallel flow water-lithium bromide absorption chiller with three condensers
S Sedigh, H Saffari
Scientia Iranica 20 (4), 1202-1212, 2013
42013
Thermodynamic analysis of single and half effect absorption refigeration system
S Sedigh, H Saffari
International Journal of Energy & Technology 3, 1-9, 2011
32011
Solar Thermal Storage Systems Using Phase Change Material: Design Criteria
S Seddegh, MM Joybari
Asia-pacific solar research conference, 2-10, 2018
12018
Thermodynamic Analysis of Single Effect and Half Effect Absorption Refrigeration Systems
S Seddegh, H Saffari
Int. J. Energy Technol 3, 1-9, 2015
12015
Two-dimensional simulation of a cylinderical latent heat thermal energy storage system
S Seddegh, Z He, X Wang, A Henderson
University of Tasmania, 2014
12014
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