CRC Handbook of Thermal Engineering
CRC Press, Dec 27, 1999 - Science - 1200 pages
To be successful in the international marketplace, corporations must have access to the latest developments and most recent experimental data. Traditional handbooks of heat transfer stress fundamental principles, analytical approaches to thermal problems, and elegant solutions to classical problems. The CRC Handbook of Thermal Engineering is not a traditional handbook. Engineers in industry need up-to-date, accessible information on the applications of heat and mass transfer-The CRC Handbook of Thermal Engineering provides it.
Peer reviewed articles-selected on the basis of their current relevance to the development of new products-provide in-depth treatment of applications in diverse fields, such as:
You'll find complete, up-to-date information on the latest development in the field, including:
A unique, one-stop resource for all your thermal engineering questions
From the basics of thermodynamics, fluid mechanics, and heat and mass transfer, to comprehensive treatment of current applications, the latest computational tools, to data tables for the properties of gases, liquids, and solids, The CRC Handbook of Thermal Engineering has it all!
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analysis applications ASHRAE boiling boundary layer calculated centrifugal compressor chemical combustion component compression compressor condensation constant control volume convective heat transfer cooling correlations cost cryocooler curve cycle density depends determined diameter diffusion duct effect efficiency electrical electronic emissivity energy Engineering enthalpy entropy Equation evaluated example exergy factor film flow rate fluid friction gases gradient heat conduction heat exchanger heat flux heat transfer coefficient increase inlet insulation interface laminar liquid mass transfer material measured mechanical method mixture Nusselt objective function obtained operating optimization optimum parameters particles pentobarbital perfusion phase phonon pipe plate pressure drop problem properties pump radiation ratio reduced refrigeration region Reynolds number saturated shown in Figure solar solid solution specific heat stream Table techniques thermal conductivity thermal resistance thermal systems thermistor thermodynamic tissue transfer rate tube turbulent typical values valve variables velocity York