05523nam 2200745Ia 450 991101991400332120200520144314.0978661268414297811186190011118619005978128268414012826841409780470611890047061189897804706104350470610433(CKB)2550000000005861(EBL)477649(SSID)ssj0000354074(PQKBManifestationID)11249817(PQKBTitleCode)TC0000354074(PQKBWorkID)10302302(PQKB)10529512(MiAaPQ)EBC477649(PPN)22854811X(OCoLC)501315443(Perlego)1008443(EXLCZ)99255000000000586120090423d2009 uy 0engur|n|---|||||txtccrConvective heat transfer solved problems /Michel Favre-Marinet, Sedat TarduHoboken, NJ ISTE/John Wiley and Sons20091 online resource (393 p.)ISTE ;v.148Description based upon print version of record.9781848211193 1848211198 Includes bibliographical references and index.Convective Heat Transfer; Table of Contents; Foreword; Preface; Chapter 1. Fundamental Equations, Dimensionless Numbers; 1.1. Fundamental equations; 1.1.1. Local equations; 1.1.2. Integral conservation equations; 1.1.3. Boundary conditions; 1.1.4. Heat-transfer coefficient; 1.2. Dimensionless numbers; 1.3. Flows with variable physical properties: heat transfer in a laminar Couette flow; 1.3.1. Description of the problem; 1.3.2. Guidelines; 1.3.3. Solution; 1.4. Flows with dissipation; 1.4.1. Description of the problem; 1.4.2. Guidelines; 1.4.3. Solution; 1.5. Cooling of a sphere by a gas flow1.5.1. Description of the problem1.5.2. Guidelines; 1.5.3. Solution; Chapter 2. Laminar Fully Developed Forced Convection in Ducts; 2.1. Hydrodynamics; 2.1.1. Characteristic parameters; 2.1.2. Flow regions; 2.2. Heat transfer; 2.2.1. Thermal boundary conditions; 2.2.2. Bulk temperature; 2.2.3. Heat-transfer coefficient; 2.2.4. Fully developed thermal region; 2.3. Heat transfer in a parallel-plate channel with uniform wall heat flux; 2.3.1. Description of the problem; 2.3.2. Guidelines; 2.3.3. Solution2.4. Flow in a plane channel insulated on one side and heated at uniform temperature on the opposite side2.4.1. Description of the problem; 2.4.2. Guidelines; 2.4.3. Solution; Chapter 3. Forced Convection in Boundary Layer Flows; 3.1. Hydrodynamics; 3.1.1. Prandtl equations; 3.1.2. Classic results; 3.2. Heat transfer; 3.2.1. Equations of the thermal boundary layer; 3.2.2. Scale analysis; 3.2.3. Similarity temperature profiles; 3.3. Integral method; 3.3.1. Integral equations; 3.3.2. Principle of resolution using the integral method; 3.4. Heated jet nozzle; 3.4.1. Description of the problem3.4.2. Solution3.5. Asymptotic behavior of thermal boundary layers; 3.5.1. Description of the problem; 3.5.2. Guidelines; 3.5.3. Solution; 3.6. Protection of a wall by a film of insulating material; 3.6.1. Description of the problem; 3.6.2. Guidelines; 3.6.3. Solution; 3.7. Cooling of a moving sheet; 3.7.1. Description of the problem; 3.7.2. Guidelines; 3.7.3. Solution; 3.8. Heat transfer near a rotating disk; 3.8.1. Description of the problem; 3.8.2. Guidelines; 3.8.3. Solution; 3.9. Thermal loss in a duct; 3.9.1. Description of the problem; 3.9.2. Guidelines; 3.9.3. Solution3.10. Temperature profile for heat transfer with blowing3.10.1. Description of the problem; 3.10.2. Solution; Chapter 4. Forced Convection Around Obstacles; 4.1. Description of the flow; 4.2. Local heat-transfer coefficient for a circular cylinder; 4.3. Average heat-transfer coefficient for a circular cylinder; 4.4. Other obstacles; 4.5. Heat transfer for a rectangular plate in cross-flow; 4.5.1. Description of the problem; 4.5.2. Solution; 4.6. Heat transfer in a stagnation plane flow. Uniform temperature heating; 4.6.1. Description of the problem; 4.6.2. Guidelines; 4.6.3. Solution4.7. Heat transfer in a stagnation plane flow. Step-wise heating at uniform fluxEach chapter begins with a brief yet complete presentation of the related topic. This is followed by a series of solved problems. The latter are scrupulously detailed and complete the synthetic presentation given at the beginning of each chapter. There are about 50 solved problems, which are mostly original with gradual degree of complexity including those related to recent findings in convective heat transfer phenomena. Each problem is associated with clear indications to help the reader to handle independently the solution. The book contains nine chapters including laminar external and interISTEHeatConvectionHeatTransmissionHeatConvection.HeatTransmission.536.25621.402/25Favre-Marinet Michel1947-1839255Tardu Sedat1959-1691466MiAaPQMiAaPQMiAaPQBOOK9911019914003321Convective heat transfer4418427UNINA