Application of hemisphere radiation shields with temperature-dependent emissivity for reducing heat transfer between two concentric hemispheres (original) (raw)

Radiation Heat Transfer between Two Concentric Cylinders using Surface to Surface Radiation Model

International Journal for Research in Applied Science and Engineering Technology IJRASET, 2020

Energy consumption and efficient use are important factors of thermal systems. This work indicates numerical studies on surface radiation and the effects of natural convection on the heat transfer and flow field between two united cylinders united, using a radiation shield between them. This study reveals the physical and engineering effects of the radiation shield on the internal radiation of two concentric cylinders closed at a certain temperature. It consists of two concentric cylinders with a hotter inner cylinder and a cooler outer cylinder. A 2 mm thick radiation shield (made of aluminum oxide plate) is inserted between the cylinders. Radiation protection has been found to reduce radiation from the inner surface of the outer cylinder to the outer surface of the inner cylinder. Almost 28% of the hypothermia is observed due to decreased radiation by the radiation shield.

Experimental Study of Radiation Heat Transfer Over Vertically Placed Circular Disks

Latin American Applied Research - An international journal

The radiation heat transfer over vertically placed circular disks under vacuum and air medium were experimentally investigated. Two type’s disks black and grey were considered for the study, which were placed vertically inside a heated chamber called an oven. A constant temperature was imposed inside the chamber. The chamber was partially vacuumed to prepare vacuum medium by controlling the air pressure with -0.8 to 0.6 bar. To understand the heat transfer, time requirement to obtain certain temperatures and heat transfer coefficient were calculated. Correlation between temperature and heat transfer coefficient were also analyzed. The findings highlighted that black disk provided the highest heat transfer coefficient and the lowest time requirement to achieve a certain temperature. Polynomial relationships between temperature and heat transfer coefficient for black and grey disks with R2 less than 1 were obtained through the trendlines.

Heat Transfer Investigation for a Multilayer Insulation System via Radiative-Conductive Approach Under Low Temperature Conditions in Space

Revista de Engenharia Térmica, 2020

Thermal insulation is an important area, not restricted to mechanical engineering, but widely studied in environmentalissues, such as global warming and, above all, energy-saving, since controlling the heat flux on microprocessorsthrough temperature control on components in space applications. This work focuses on controlling the temperature incomponents that could not lose or gain so much heat in space, especiallywhen the overall safety of sending satellites onspecific missions is required. To ensure that, Multilayer Insulation (MLI) is used. With fluid mechanics and radiation-conductionheat transfer theory, it was possible to calculate the transient and stationary temperature field and heat flux inMLI. The boundary temperatures are specified at 300K and 4K. The results, from solving the resulting discretized ODE,simulated with fsolve and odeintScipy subroutines in Python, able to solve the equations numerically, were shown. Thedata given by the simulation was able to indicate the ...