Author/Authors :
Omidpanah, Mohammad Department of Mechanical Engineering - Faculty of Shahid Sadooghi - Yazd Branch - Technical and Vocational University (TVU), Yazd, Iran , Agha Mirjalily, Ali Department of Mechanical Engineering - Yazd Branch - Islamic Azad University, Yazd, Iran , Kargarsharifabad, Hadi Energy and Sustainable Development Research Center - Semnan Branch - Islamic Azad University, Semnan, Iran , shoeibi, Shahin Energy and Sustainable Development Research Center - Semnan Branch - Islamic Azad University, Semnan, Iran
Abstract :
This study simulated the flow and temperature field inside hollow bricks using well-known geometries to investigate the transient thermal behavior in both solid and fluid regions. To this end, a set of governing equations was solved simultaneously for an absorbing-emitting, isotropically scattering gas and solid region. To discretize the equations, the finite volume method was applied and the radiative transfer equation was calculated using the discrete ordinate method. Furthermore, the block off method is used to distinguish between solid and fluid media in the computational domain. The obtained results show that the rate of heat transfer is minimized in geometries having vertical rectangle sub cavities and their wall emissivity tends to zero. Moreover, the time required to reach steady state condition is an increasing function of total heat flux.
Keywords :
radiation , conjugate heat transfer , transient , discrete ordinate method
