## Introduction to Thermal Sciences: Thermodynamics Fluid Dynamics Heat TransferUses an integrated approach to show the interrelationships between thermodynamics, heat transfer and fluid dynamics, stressing the physics of each. Mathematical description is included to allow the solution of simple problems in thermal sciences. New to this edition--SI and English units plus twice as many example problems which emphasize practical applications of the principles discussed. |

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### Contents

INTRODUCTION | 1 |

SYSTEM ANALYSIS FIRST AND SECOND LAWS | 70 |

CONTROL VOLUME ANALYSIS | 101 |

Copyright | |

9 other sections not shown

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### Common terms and phrases

acting adiabatic assumed average body boundary layer Btu/hr calculated called Chapter compression conduction considered constant container control volume convection heat transfer cycle cylinder defined Determine developed diagram diameter difference direction discussed distribution drag duct effects efficiency electrical energy engine enters entropy equal equation Estimate EXAMPLE expression factor Figure flat flow flow rate fluid flux force friction function given heat exchanger heat transfer coefficient increase initial inside insulated internal kJ/kg laminar leaving length liquid loss mass mean moving obtained occurs pipe piston plate present pressure problem properties pump radiation rate of heat region relationship resistance result reversible saturated shown in Fig solid SOLUTION specific steam substance surface surroundings Table tank temperature thermal thermodynamics thickness tube turbine turbulent uniform unit vapor velocity viscous W/mē wall