參考文獻 |
1.ANSI/IEEE C57.92, IEEE Guide for Loading Mineral oil immersed Power Transformers up to and including 100 MVA with 55 or 65°CAverage Winding Rise, 1981.
2.R. Feinberg, Modern Power Transformer Practice, Mac Millan, London, Chapters 2 and 9, 1979.
3.L. Kiss, I. Szita, G. Ujhazy, Some Characteristic Design Problems of Large Power Transformers, 12.07, CIGRE, 1974.
4.P. H. G. Allen, Transformer Winding Thermal Design by Computer, IEE Conference Pub., No.51, pp. 589, 1969.
5.L. Imre, I. Szabo, A. Botai, Determination of the Steady State Temperature Field in Naturally Oil Cooled Disc Type Transformer, Int. Heat and mass transfer Conf., 2, pp. 123, 1978.
6.S. V. Pereingerova, M. Pivrnec, Temperature Distribution in the Coilof a Transformer Winding, Proc. IEE, 124, pp 128, 1977.
7.S. Bennon, Thermal Analysis of Transformer Load Cycles, Transactions, AIEE, III, Vol. 77, pp. 21-25, April 1958.
8.J. J. Bates and J. F. Lindsay, The possible use of Harmonic Analysis and Synthesis in the Calculation of the Temperature Variations of an Oil-Filled Transformer, Proceedings, Symposium on Electrical Machine Design, Coimbatore, India, pp. 99-114, October 13-15, 1960.
9.Allen, P. H. G., Transformer rating by hottest spot temperature, Electr. Times, pp. 33-38, March 1971.
10.IEC 76-2 Power Transformers: Temperature Rise, Revision of IEC Publication 76-2 (1976) 1990.
11.IEC 354 Loading Guide for Oil Immersed Power Transformers, Revision of IEC Publication 354, 1987.
12.A. J. Oliver, Estimation of Transformer Winding Temperatures and Coolant Flows using a General Network Method, IEE Proceedings, Vol. 127, No. 6, 1980.
13.R. Sarunac, Numerical Calculation of the Winding Temperatures and Coolant Flows in Power Transformer with ODAF type of Cooling, Proceedings of the Sixth International Conference on Numerical Methods in Thermal Problems, Electrotechnical Institute of RADE KONCAR, Swansea, UK, pp.1644-1654, 1989.
14.P. Venkateswarlu, A. R. Prasad, Numerical Prediction of the Temperature Distribution in the Coils of a Transformer Winding, International Conference on Large High Voltage Electric System, Paris, 29, Aug.-6 Sept, 1984.
15.I. T. Carstea, Program for Heat Transfer Analysis in Large Power Transformers Windings, Modeling, Measurement and Control A, Vol. 57, No. 33, pp. 31-39, 1994(AM SE Press).
16.G. F. Marsters, Arrays of Heated Horizontal Cylinders in Natural Convection, Int. J. Heat Mass Transfer, Vol. 15, pp. 921-933, 1972.
17.W. Rodi, Influence of Buoyancy and Rotation on Equations for Turbulent Length Scale, Proc. 2nd Symp. On Turbulent Shear Flows, 1979.
18.B. E. Lauder, and D. B. Spalding, The Numerical Computation of Turbulent Flow, Comp. Meth. In Appl. Mech. & Eng., Vol. 3, pp. 269, 1974.
19.S. H. El Tahry, Equation for Compressible Reciprocating Engine Flows, AIAA J. Energy, Vol. 7, No. 4, pp. 345-353, 1983.
20.J. Boussinesq, Theorie Anaytique de la Chaleur, Vol. 2, Gauthier-Villars, Paris, 1903.
21.A. D. Gosman, W.M. Pun, A. K. Runchal, D. B. Spalding, and M. Wolfstein, Heat and mass transfer in recirculating flows, Academic Press, London, 1969.
22.S. V. Patankar, Numerical Heat Transfer and Fluid Flow, Hemisphere, Washington, D.C, 1980.
23.Z. V. A. Warsi, Conservation form of the Navier-stokes Equations in General Non steady Coordinates, AIAA J., Vol. 19, pp.240-242, 1981.
24.P. J. Roache, Computational Fluid Mechanics, Hermosa Publishers, New Mexico, 1976.
25.D. M. Manole and J. L. Lage, Non Uniform Grid Accuracy Test Applied to the Natural Convection Flow within a Porous Medium Cavity, Numerical Heat Transfer, Part B, Vol. 23, pp. 351-368, 1993.
26.J. L. Lage and A. Bejan, The Ra-Pr Domain of Laminar Natural Convection in an Enclosure Heated from the Side, Numerical Heat Transfer, Vol. 19, pp. 21-41, 1991.
27.J. L. Lage, A. Bejan, and J. G. Georgiadis, On the Effect of the Prandtl Number on the Onset of Benard Convection, Int. J. Heat Fluid Flow, Vol. 12, pp. 184-188, 1991.
28.J. L. Lage, A. Bejan, and R. Anderson, Efficiency of Transient Contaminant Removal from a Slot Ventilated Enclosure, Int. J. Heat Mass Transfer, Vol. 34, pp. 2603-2615, 1991.
29.S. V. Patankar and D. B. Spalding, A Calculation Procedure for Heat, Mass and Momentum Transfer in Three Dimensional Parabolic Flows, Int. J. of Heat Mass Transfer, Vol. 15, pp. 1787, 1972.
30.G. X. Wang, H. L. Zhang and W. Q. Tao, Numerical Simulation of Natural Convection in Rectangular Enclosures with Discrete Heated Elements, Heat Transfer in Electronic and Microelectronic Equipment, Ed. by Arthur E. Bergles, Hemisphere Publ. Cop., pp. 197-209, 1990.
31.G.. De Vahl Davis, Natural Convection of Air in a Square Cavity: A Benchmark Numerical Solution, Int. J. Numerical Methods Fluids, Vol. 3, pp. 249-264, 1983.
32.M. Molki and M. Faghri, Conjugate Natural Convection Heat Transfer in a Vertical Annulus with Internal Circumferential Fins, Numerical Heat Transfer, Part A, Vol. 25, pp. 457-476, 1994.
33.周宜弘,同心圓環渠道之自然對流研究;國立交通大學碩士論文;新竹;民國八十年。 |