Principles of Heat Transfer
PRINCIPLES OF HEAT TRANSFER was first published in 1959, and since then it has grown to be considered a classic within the field, setting the standards for coverage and organization within all other Heat Transfer texts. The book is designed for a one-semester course in heat transfer at the junior or senior level, however, flexibility in pedagogy has been provided. Following several recommendations of the ASME Committee on Heat Transfer Education, Kreith, Manglik, and Bohn present relevant and stimulating content in this fresh and comprehensive approach to heat transfer, acknowledging that in today's world classical mathematical solutions to heat transfer problems are often less influential than computational analysis. This acknowledgement is met with the emphasize that students must still learn to appreciate both the physics and the elegance of simple mathematics in addressing complex phenomena, aiming at presenting the principles of heat transfer both within the framework of classical mathematics and empirical correlations.
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Basic Modes of Heat Transfer
Numerical Analysis of Heat Conduction
Analysis of Convection Heat Transfer
Forced Convection Inside Tubes and Ducts
Forced Convection Over Exterior Surfaces
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approximately Assume average heat transfer blackbody boiling boundary conditions boundary layer Btu/h ft2 F calculate condensing constant control volume convection heat transfer cooling correlation critical heat flux cylinder determine diameter dimensionless duct electrical equation estimate evaluated example FIGURE flat plate flow rate forced convection friction gases geometry heat conduction heat exchanger heat flow heat flux heat loss heat transfer coefficient heater horizontal increase inside insulation J/kg kg/s laminar flow length liquid Manglik natural convection nodes Nusselt number obtained packed bed perature pipe Prandtl number pressure drop Problem properties radiation rate of heat ratio regime Reynolds number shape factor shown in Fig solar solution sphere steam steel surface area surface temperature Table temperature difference temperature distribution thermal conductivity thermal resistance thermocouple thickness tion tube turbulent flow unit vapor velocity vertical viscosity wavelength