Numerical simulations of conjugate convection combined with surface thermal radiation using an Immersed-Boundary Method
Dynamic and thermal interaction problems involving fluids and solids were studied through a finite volume-based Navier-Stokes solver, combined with immersed-boundary techniques and the net radiation method. Source terms were included in the momentum and energy equations to enforce the non-slip condi...
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| Veröffentlicht in: | Journal of physics. Conference series 2016-09, Vol.745 (3), p.32017 |
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| container_title | Journal of physics. Conference series |
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| creator | Favre, F. Colomer, G. Lehmkuhl, O. Oliva, A. |
| description | Dynamic and thermal interaction problems involving fluids and solids were studied through a finite volume-based Navier-Stokes solver, combined with immersed-boundary techniques and the net radiation method. Source terms were included in the momentum and energy equations to enforce the non-slip condition and the conjugate boundary condition including the radiative heat exchange. Code validation was performed through the simulation of two cases from the literature: conjugate natural convection in a square cavity with a conducting side wall; and a cubical cavity with conducting walls and a heat source. The accuracy of the methodology and the validation of the inclusion of moving bodies into the simulation was performed via a theoretical case |
| doi_str_mv | 10.1088/1742-6596/745/3/032017 |
| format | Article |
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Source terms were included in the momentum and energy equations to enforce the non-slip condition and the conjugate boundary condition including the radiative heat exchange. Code validation was performed through the simulation of two cases from the literature: conjugate natural convection in a square cavity with a conducting side wall; and a cubical cavity with conducting walls and a heat source. 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Conference series</title><addtitle>J. Phys.: Conf. Ser</addtitle><description>Dynamic and thermal interaction problems involving fluids and solids were studied through a finite volume-based Navier-Stokes solver, combined with immersed-boundary techniques and the net radiation method. Source terms were included in the momentum and energy equations to enforce the non-slip condition and the conjugate boundary condition including the radiative heat exchange. Code validation was performed through the simulation of two cases from the literature: conjugate natural convection in a square cavity with a conducting side wall; and a cubical cavity with conducting walls and a heat source. 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Source terms were included in the momentum and energy equations to enforce the non-slip condition and the conjugate boundary condition including the radiative heat exchange. Code validation was performed through the simulation of two cases from the literature: conjugate natural convection in a square cavity with a conducting side wall; and a cubical cavity with conducting walls and a heat source. The accuracy of the methodology and the validation of the inclusion of moving bodies into the simulation was performed via a theoretical case</abstract><cop>Bristol</cop><pub>IOP Publishing</pub><doi>10.1088/1742-6596/745/3/032017</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | Boundary conditions Boundary-value problems Conducting side wall Conjugate convection numerical simulations Conjugates Dinàmica de fluids Enginyeria mecànica Finite volume methods Finite volume-based Navier-Stokes solver Fluid dynamics Free convection Heat exchange Heat radiation Heat transmission Immersed-boundary method Mecànica de fluids Natural convection Navier-Stokes equations Nonslip condition Physics Radiation Radiative heat exchange Simulació, Mètodes de Simulation Simulation methods Source terms Square cavity Surface thermal radiation Thermal interaction problems Thermal radiation Àrees temàtiques de la UPC |
| title | Numerical simulations of conjugate convection combined with surface thermal radiation using an Immersed-Boundary Method |
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