Full-Text PDF
... The concept of heat pipes was first described in 1942, but the real development of heat pipes started in the 1960s [1]. Properly designed heat pipes can transport heat at very high rates with a small temperature difference between the cold and the warm end. This is possible because the heat transpor ...
... The concept of heat pipes was first described in 1942, but the real development of heat pipes started in the 1960s [1]. Properly designed heat pipes can transport heat at very high rates with a small temperature difference between the cold and the warm end. This is possible because the heat transpor ...
SCHAUM`S OUTLINE OF THEORY AND PROBLEMS OF HEAT
... The engineering area frequently referred to as thermal science includes thermodynamics and heat transfer. The role of heat transfer is to supplement thermodynamic analyses, which consider only systems in equilibrium, with additional laws that allow prediction of time rates of energy transfer. These ...
... The engineering area frequently referred to as thermal science includes thermodynamics and heat transfer. The role of heat transfer is to supplement thermodynamic analyses, which consider only systems in equilibrium, with additional laws that allow prediction of time rates of energy transfer. These ...
... Computational Fluid Dynamics. Coupled conduction and convective heat transfer were modeled for uniform and non-uniform lateral power distributions. It was concluded that, due to conduction, the maximum heat flux ratio on the cladding surface is 1.16, compared to the maximum volumetric power generati ...
Volumetrie properties of concentrated electrolyte solutions
... where the partial molar volumes of components, which are concentration dependent, are replaced by the molar volumes of pure components at the temperature of the experiment. When formulated in this manner, the problem relates to the mixing of an electrolyte with a molecular solvent and in this situat ...
... where the partial molar volumes of components, which are concentration dependent, are replaced by the molar volumes of pure components at the temperature of the experiment. When formulated in this manner, the problem relates to the mixing of an electrolyte with a molecular solvent and in this situat ...
2-pages-in-1 version
... This is similar to the ideal gas law but it uses effective pressure and volume. Reduction in the molar volume is needed because molecules have finite size (i.e. they are not point-like as assumed in the ideal gas law). This part is related to the repulsive wall of the molecule - molecule interaction ...
... This is similar to the ideal gas law but it uses effective pressure and volume. Reduction in the molar volume is needed because molecules have finite size (i.e. they are not point-like as assumed in the ideal gas law). This part is related to the repulsive wall of the molecule - molecule interaction ...
An evaluation of the nature and timing of summer human thermal
... of limitations. Perhaps the major limitation is that skin temperature and evaporative heat loss are constrained to values for comfort at a given activity level. The PMV equation also only applies to sedentary subjects exposed to steady-state conditions for a long period at a constant metabolic rate, ...
... of limitations. Perhaps the major limitation is that skin temperature and evaporative heat loss are constrained to values for comfort at a given activity level. The PMV equation also only applies to sedentary subjects exposed to steady-state conditions for a long period at a constant metabolic rate, ...
uncorrected page proofs
... Heat can be gained by the human body from the external environment through radiation, conduction and convection. This heat gain occurs when the external (ambient) temperature is higher than the body temperature. Heat can be lost from the human body to the external environment through the processes o ...
... Heat can be gained by the human body from the external environment through radiation, conduction and convection. This heat gain occurs when the external (ambient) temperature is higher than the body temperature. Heat can be lost from the human body to the external environment through the processes o ...
Heat equation
The heat equation is a parabolic partial differential equation that describes the distribution of heat (or variation in temperature) in a given region over time.