03582nam a22004455i 4500001001800000003000900018005001700027007001500044008004100059020001800100024003500118041000800153050001000161050001800171072001700189072002300206082001700229100003600246245008100282260006100363264006100424300006700485336002600552337002600578338003600604347002400640505017000664520196700834650001702801650002702818650002402845650001702869650005602886650002402942650003202966710003402998773002003032776003603052856004803088978-3-642-03932-4DE-He21320141014113538.0cr nn 008mamaa100715s2010 gw | s |||| 0|eng d a97836420393247 a10.1007/978-3-642-03932-42doi aeng 4aTJ265 4aQC319.8-338.5 7aTGMB2bicssc 7aSCI0650002bisacsh04a621.40212231 aAnnaratone, Donatello.eauthor.10aEngineering Heat Transferh[electronic resource] /cby Donatello Annaratone. 1aBerlin, Heidelberg :bSpringer Berlin Heidelberg,c2010. 1aBerlin, Heidelberg :bSpringer Berlin Heidelberg,c2010. aXIII, 329p. 222 illus., 111 illus. in color.bonline resource. atextbtxt2rdacontent acomputerbc2rdamedia aonline resourcebcr2rdacarrier atext filebPDF2rda0 ato Heat Transfer -- Steady Conduction -- Transient Conduction -- Dimensional Analysis -- Convection -- Radiation -- Heat Exchangers and Tube Banks -- Pressure Drops. aThis book is a generalist textbook; it is designed for anybody interested in heat transmission, including scholars, designers and students. Two criteria constitute the foundation of Annaratoneâ€™s books, including the present one. The first one consists of indispensable scientific rigour without theoretical exasperation The inclusion in the book of some theoretical studies, even if admirable for their scientific rigor, would have strengthened the scientific foundation of this publication, yet without providing the reader with further applicable know-how. The second criterion is to deliver practical solution to operational problems. This criterion is fulfilled through equations based on scientific rigor, as well as a series of approximated equations, leading to convenient and practically acceptable solutions, and through diagrams and tables. When a practical case is close to a well defined theoretical solution, corrective factors are shown to offer simple and correct solutions to the problem. After a brief introduction in Chapter 1, heat transfer by conduction in both steady and unsteady state is examined in Chapter 2 as well as Chapter 3. Chapter 4 develops the dimensional analysis as an indispensable premise to Chapter 5 with its focus on heat transfer by convection. Chapter 6 analyzes heat transfer by radiation including radiation by flame. Chapter 7 illustrates the required behavior when examining heat transfer in heat exchangers, as well as tube banks. Chapter 8 discusses pressure drops in detail. Appendix A shows a series of Tables relative to thermal characteristics of the materials. Appendix B includes a series of Tables about the corrective factors to be adopted to obtain the real value of the mean temperature difference in design computation. Appendix C includes a series of Tables about the corrective factors to be adopted to obtain the real value of the exit temperature of the heating fluid in verification computation. 0aEngineering. 0aHydraulic engineering. 0aEngineering design.14aEngineering.24aEngineering Thermodynamics, Heat and Mass Transfer.24aEngineering Design.24aEngineering Fluid Dynamics.2 aSpringerLink (Online service)0 tSpringer eBooks08iPrinted edition:z978364203931740uhttp://dx.doi.org/10.1007/978-3-642-03932-4