Rohsenow W., Hartnett J., Young Cho. Handbook of Heat Transfer (776121), страница 90
Текст из файла (страница 90)
Shah, and A. L. London, "Laminar Flow Forced Convection in Ducts," Supplement 1 toAdvances in Heat Transfer, eds. T. E Irvine and J. P. Hartnett, Academic Press, New York, 1978.2. R. K. Shah, and M. S. Bhatti, "Laminar Convection Heat Transfer in Ducts," Handbook of SinglePhase Convective Heat Transfer, eds. S. Kakaq, R. K. Shah, and W. Aung, Wiley-Interscience, JohnWiley & Sons, New York, 1987.3. M. S.
Bhatti, "Fully Developed Temperature Distribution in a Circular Tube with Uniform WallTemperature," unpublished paper, Owens-Corning Fiberglass Corporation, Granville, Ohio, 1985.4. M. L. Michelsen, and J. Villadsen, "The Graetz Problem with Axial Heat Conduction," Int. J. HeatMass Transfer, (17): 1391-1402, 1974.5. J. W. Ou, and K.
C. Cheng, "Viscous Dissipation Effects on Thermal Entrance Heat Transfer in Laminar and Turbulent Pipe Flows with Uniform Wall Temperature," AIAA, paper no. 74-743 or A S M Epaper no. 74-HT-50, 1974.5.126CHAPTER FIVE6. V. P. Tyagi, "Laminar Forced Convection of a Dissipative Fluid in a Channel," J. Heat Transfer, (88):161-169, 1966.7. H. J. Hickman, "An Asymptotic Study of the Nusselt-Graetz Problem, Part 1: Large x Behavior," J.Heat Transfer, (96): 354-358, 1974.8.
Y. S. Kadaner, Y. P. Rassadkin, and E. L. Spektor, "Heat Transfer in Laminar Liquid Flow througha Pipe Cooled by Radiation," Heat Transfer-Sov. Res., (3/5): 182-188, 1971.9. S. Piva, "An Analytical Approach to Fully Developed Heating of Laminar Flows in Circular Pipes,"Int. Comm. Heat Mass Transfer, (22/6): 815-824, 1995.10. R.W. Hornbeck, "Laminar Flow in the Entrance Region of a Pipe," Appl.
Sci. Res., (A13): 224-232,1964.11. R.Y. Chen, "Flow in the Entrance Region at Low Reynolds Numbers," J. Fluids Eng., (95): 153-158,1973.12. H. L. Weissberg, "End Correction for Slow Viscous Flow through Long Tubes," Phys. Fluids, (5):1033-1036, 1962.13.
J. H. Linehan, and S. R. Hirsch, "Entrance Correction for Creeping Flow in Short Tubes," J. FluidsEng., (99): 778-779, 1977.14. L. Graetz, "Lilger die W~irmeleitungs F~ihigkeit von Fltissigkeiten (On the Thermal Conductivity ofLiquids)," part 1,Ann Phys. Chem., (18): 79-94, 1883; part 2,Ann.
Phys. Chem., (25): 337-357,1885.15. W. Nusselt, "Die Abh~ingigkeit der W~irmtibergangszahl vonder Rohrl~inge (The Dependence ofthe Heat-Transfer Coefficient on the Tube Length)", VDIZ, (54): 1154-1158, 1910.16. J. Newman, "The Graetz Problem," The Fundamental Principles of Current Distribution and MassTransfer in Electrochemical Cells, ed. A. J. Bard, vol. 6, Dekker, New York, pp. 187-352, 1973.17. G. M. Brown, "Heat or Mass Transfer in a Fluid in Laminar Flow in a Circular or Flat Conduit,"AIChE J.," (6): 179-183, 1960.18. B. K. Larkin, "High-Order Eigenfunctions of the Graetz Problem," AIChE J., (7): 530, 1961.19.
A. Lrvrque, "Les Lois de la Transmission de Chaleur par Convection," Ann. Mines, Mem., ser. 12,(13): 201-299, 305-362, 381--415, 1928.20. H. Hausen, "Dartellung des W~irmeiaberganges in Rohren durch verallgemeinerte Potenzbeziehyngen," VDIZ., Suppl. "Verfahrenstechnik," (4): 91-98, 1943.21. C.
Laohakul, C. Y. Chan, K. Y. Look, and C. W. Tan, "On Approximate Solutions of the GraetzProblem with Axial Conduction," Int. J. Heat Mass Transfer, (28): 541-545, 1985.22. M. A. Ebadian, and H. Y. Zhang, "An Exact Solution of Extended Graetz Problem with Axial HeatConduction," Int. J. Heat Mass Transfer, (32): 1709-1717, 1989.23. T. V.
Nguyen, "Laminar Heat Transfer for Thermally Developing Flow in Ducts," Int. J. Heat MassTransfer, (35): 1733-1741, 1992.24. D. K. Hennecke, "Heat Transfer by Hagen-Poiseuille Flow in the Thermal Development Regionwith Axial Conduction," Wtirme-Stoffiibertrag., (1): 177-184, 1968.25. R. Siegel, E. M. Sparrow, and T. M. Hallman, "Steady Laminar Heat Transfer in a Circular Tube withPrescribed Wall Heat Flux," Appl. Sci. Res., (A7): 386--392, 1958.26. C.J.
Hsu, "Heat Transfer in a Round Tube with Sinusoidal Wall Heat Flux Distribution," AIChE J.,(11): 690--695, 1965.27. H. C. Brinkmann, "Heat Effects in Capillary Flow," Appl., Sci. Res., (A2): 120--124, 1951.28. J. W. Ou, and K. C. Cheng, "Viscous Dissipation Effects on Thermal Entrance Region Heat Transfer in Pipes with Uniform Wall Heat Flux," Appl. Sci. Res., (28): 289-301, 1973.29.
T. Basu, and D. N. Roy, "Laminar Heat Transfer in a Tube with Viscous Dissipation," Int. J. HeatMass Transfer, (28): 699-701, 1985.30. C. J. Hsu, "Exact Solution to Entry-Region Laminar Heat Transfer with Axial Conduction andBoundary Conditions of the Third Kind," Chem. Eng. Sci., (23): 457-468, 1968.31. T. E Lin, K.
H. Hawks, and W. Leidenfrost, "Analysis of Viscous Dissipation Effect on ThermalEntrance Heat Transfer in Laminar Pipe Flows with Convective Boundary Conditions," Wi~rme-undStoff~bertragung, (17): 97-105, 1983.FORCED CONVECTION, INTERNAL FLOW IN DUCTS5.12"/32. M. K. Jensen, "Simultaneously Developing Laminar Flow in an Isothermal Circular Tube," Int.Comm. Heat Mass Transfer, (16): 811-820, 1989.33. H. H. AI-AIi, and M. S. Selim, "Analysis of Laminar Flow Forced Convection Heat Transfer withUniform Heating in the Entrance Region of a Circular Tube," Can.
J. Chem. Eng., (70): 1101-1107,1992.34. M. S. Bhatti, "Limiting Laminar Heat Transfer in Circular and Flat Ducts by Analogy with TransientHeat Conduction Problems," unpublished paper, Owens-Corning Fiberglass Corporation, Granville, Ohio, 1985.35. G. Pagliarini, "Steady Laminar Heat Transfer in the Entry Region of Circular Tubes with Axial Diffusion of Heat and Momentum," Int. J. Heat Mass Transfer, (32/6): 1037-1052, 1989.36. A.
Barletta, "On Forced Convection in a Circular Duct with Slug Flow and Viscous Dissipation," Int.Comm. Heat Mass Transfer, (23): 69-78, 1996.37. V. Javeri, "Simultaneous Development of the Laminar Velocity and Temperature Fields in a Circular Duct for the Temperature Boundary Condition of the Third Kind," Int. J.
Heat Mass Transfer,(19): 943-949, 1976.38. G. S. Barozzi, and G. Pagliarini, "A Method to Solve Conjugate Heat Transfer Problems: The Caseof Fully Developed Laminar Flow in a Pipe," J. Heat Transfer, (107): 77-83, 1985.39. J. C. Kuo, and T. E Lin, "Steady Conjugate Heat Transfer in Fully Developed Laminar Pipe Flows,"J. of Thermophysics and Heat Transfer, (2/3): 281-283, 1988.40.
G. Pagliarini, "Conjugate Heat Transfer for Simultaneously Developing Laminar Flow in a CircularTube," J. of Heat Transfer, (113): 763-766, 1991.41. W. Pfenniger, "Experiments with Laminar Flow in the Inlet Length of a Tube at High ReynoldsNumbers With and Without Boundary Layer Suction," technical report, Northrop Aircraft Inc.,Hawthorne, California, 1952.42. L.
Prandtl, "l~lber den Reibungswiderstand Strrmender Luft," Ergebnisse der Aerodynamics Versuchstalt zu GOttingen, edition 3, pp. 1-5, 1927.43. J. Nikuradse, "Gesetzm/assigkeiten der turbulenten StrOmung in glatten Rohren," Forsch. Arb. Ing.Wes., (356), 1932; English translation, NASA TT F-IO, 359, 1966.44. L. Prandtl, "Neuere Ergebnisse der Turbulenzforschung," VDIZ., (77/5): 105-114, 1933; Englishtranslation NACA TM 7320, 1933.45. M. S.
Bhatti, and R. K. Shah, "Turbulent and Transition Flow Convective Heat Transfer in Ducts,"Handbook of Single-Phase Convective Heat Transfer, eds. S. Kaka~, R. K. Shah, and W. Aung, WileyInterscience, New York, 1987.46. T. von K~irm~in, "Mechanische ,/i,hnlichkeit und Turbulenz," Nachr. Ges. Wiss GOttingen, Math. Phys.Klasse, (5): 58-76, 1930; English translation, NACA TM 611, 1931.47.
C. Wang, "On the Velocity Distribution of Turbulent Flow in Pipes and Channels of Constant CrossSection," J. Appl. Mech., (68): A85-A90, 1946.48. H. Darcy, "Recherches Exprrimentales Relatives Aux Mouvements de l'Eau Dans Tuyauz," Mem.Pr~s. Acad. des Sci.
Inst. Frances, (15): 141, 1858.49. H. Blasius, "Das ,/i~hnlichkeitsgesetz bei Reibungsvorg/ingen in Fltissigkeiten," Forschg. Arb. Ing.Wes., (131): Berlin, 1913.50. W. H. McAdams, Heat Transmission, 3d ed., McGraw-Hill, New York, 1954.51. T. B. Drew, E. C. Koo, and W. H. McAdams, "The Friction Factor for Clean Round Pipes," Trans.AIChE, (28): 56-72, 1932.52. L. Prandtl, Fiihrrer durch die StOmungslehre, Vieweg, Braunschweig, p.
359, 1944.53. T. von K~irm~in, "Turbulence and Skin Friction," J. Aerosp. Sci., (7): 1-20, 1934.54. C. E Colebrook, "Turbulent Flow in Pipes with Particular Reference to the Transition Regionbetween the Smooth and Rough Pipes Laws," J. Inst. Civil Eng., (11): 133-156, 1939.55. G. K. Filonenko, "Hydraulic Resistance in Pipes (in Russia), Teplonergetika, (1/4): 40--44, 1954.56. R.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
