Thermal performance of circular convective–radiative porous fins with different section shapes and materials
In this study, heat transfer and temperature distribution equations for circular convective–
radiative porous fins are presented. It's assumed that the thickness of circular fins varies with …
radiative porous fins are presented. It's assumed that the thickness of circular fins varies with …
[引用][C] Thermal performance of circular convective-radiative porous fins with different section shapes and materials
M HATAMI, DD GANJI - Energy conversion and management, 2013 - pascal-francis.inist.fr
Thermal performance of circular convective-radiative porous fins with different section
shapes and materials CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic …
shapes and materials CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic …
Thermal performance of circular convective–radiative porous fins with different section shapes and materials
M Hatami, DD Ganji - Energy Conversion and Management, 2013 - infona.pl
In this study, heat transfer and temperature distribution equations for circular convective–
radiative porous fins are presented. It's assumed that the thickness of circular fins varies with …
radiative porous fins are presented. It's assumed that the thickness of circular fins varies with …
Thermal performance of circular convective-radiative porous fins with different section shapes and materials
M Hatami, DD Ganji - Energy Conversion and Management, 2013 - ui.adsabs.harvard.edu
In this study, heat transfer and temperature distribution equations for circular convective-
radiative porous fins are presented. It's assumed that the thickness of circular fins varies with …
radiative porous fins are presented. It's assumed that the thickness of circular fins varies with …
Thermal performance of circular convective–radiative porous fins with different section shapes and materials
M Hatami, DD Ganji - Energy Conversion and Management, 2013 - inis.iaea.org
[en] Graphical abstract:-Highlights:• LSM is an accurate technique for simulating heat
transfer in circular porous fins.• Rectangular, convex, triangular and exponential variable …
transfer in circular porous fins.• Rectangular, convex, triangular and exponential variable …
[PDF][PDF] Thermal performance of circular convective–radiative porous fins with different section shapes and materials
M Hatami, DD Ganji - Energy Conversion and Management, 2013 - academia.edu
abstract In this study, heat transfer and temperature distribution equations for circular
convective–radiative porous fins are presented. It's assumed that the thickness of circular …
convective–radiative porous fins are presented. It's assumed that the thickness of circular …
[HTML][HTML] Thermal performance of circular convective–radiative porous fins with different section shapes and materials
M Hatami, DD Ganji - Energy Conversion and Management, 2013 - osti.gov
Graphical abstract:-Highlights:• LSM is an accurate technique for simulating heat transfer in
circular porous fins.• Rectangular, convex, triangular and exponential variable sections are …
circular porous fins.• Rectangular, convex, triangular and exponential variable sections are …