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PIER PIER B PIER C PIER M PIER Letters
Electromagnetic Field Analysis for Electrical Machine Design
By
M. V. K. Chari,

    Dr. M. V. K. Chari

    Rensselaer Polytechnic Institute

    USA

    Homepage

Gary Bedrosian,

    Dr. Gary Bedrosian

    Physics

    Allegheny College

    USA

    Homepage

Adalbert Konrad,

    Dr. Adalbert Konrad

    Department of Electrical and Computer Engineering

    University of Toronto

    Canada

    Homepage

Manoj R. Shah

    Dr. Manoj R. Shah

    Gen Elect Global Res Ctr

    USA

    Homepage

, Vol. 04, 159-211, 1991
doi:10.2528/PIER89090100
Abstract
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Citation
M. V. K. Chari, Gary Bedrosian, Adalbert Konrad, and Manoj R. Shah, "Electromagnetic Field Analysis for Electrical Machine Design," , Vol. 04, 159-211, 1991.
doi:10.2528/PIER89090100
References

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4. Csendes, Z. J., "The high order polynomial finite element method in electromagnetic field computation," Finite Elements in Electrical and Magnetic Field Problems, Chapter 7, John Wiley and Sons, Ltd., U.K., 1980.

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6. Simkin, J. and C. W. Trowbridge, "Application of integral equation methods for the numerical solution of magnetostatic and eddy current problems," Rutherford Laboratory Report, RL-76-041, U.K., 1976.

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9. Konrad, A. and M. V. K. Chari, "Power loss and forces due to skin effect in transmission lines and busbars," IEEE Canadian Communications and Energy Conference, Montreal, Oct. 13-15, 1982.

10. Dimonaco, A., G. Giuseppetti, and G. Tontini, "Studio di campi elettrici e magnetici stanzionari con II metodo degli elementi finiti applicazione ai transformatori," Lelettotecnica, Vol. LXII, No. 7, 585-598, 1975.

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13. Chari, M. V. K. and J. D'Angelo, "Finite element analysis of magneto-mechanical devices," Proceedings of the Fifth Intemational Workshop on Rare Earth Cobalt Magnets and Their Applications, 237-257, Roanoke, Virginia, June 7- 10, 1981.

14. Kincaid, T. G. and M. V. K. Chari, "The application of finite element analysis method to eddy current nondestructive evaluation," IEEE Trans. Magnetics, Vol. 15, No. 6, 1956-1960, 1979.
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15. Palrno, M. A., Z. J. Csendes, and M. V. K. Chari, "Axisymmetric and three dimensional electrostatic field solutions by the finite element method," Electrical Machines & Electromechanics, 235-244, Quarterly, 1979.

16. Silvester, P., H. S. Cabayan, and B. T. Browne, "Efficient techniques for finite element analysis of electric machines," IEEE Tansactions on Power Apparatus and Systems, Vol. 9, No. 4, 1973.

17. Cuthill, E. H. and J. M. McKee, "Reducing the bandwidth of sparse symmetric matrices," Proc. 24th Conference SCM, 157-172, 1969.

18. Bathe, K. J. and E. L. Wilson, Numerical Methods in Finite Element Analysis, Prentice Hall, 1976.

19. Irons, B. M., "A frontal solution program for finite element analysis," Int. J. of Num. Methods in Engineering, Vol. 2, 5-32, 1970.
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20. Hestenes, M. R. and E. Stiefe, "Method of conjugate gradients for solving linear systems," Report No. 1959, NBS, Washington, D.C., 1952.

21. Chari, M. V. K., Finite element analysis of nonlinear magnetic fields in electric machines, Ph.D. Dissertation, McGill University, Montreal, Canada, 1970.

22. Brandl, P., K. Reichert, and W. Vogt, "Simulation of turbogenerators on steady state load," Brown Boveri Review, Vol. 9, 1975.

23. Bedrosian, G., M. V. K. Chari, M. R. Shah, and G. Theodossiou, "Axiperiodic finite element analysis of generator end regions; Part I --- Theory," IEEE Trans. Magnetics, Jul. 1989.

24. Hildebrand, F. B., Modern Mathematics for Engineers and Physicists, Prentice Hall, 1962.

25. Honsinger, V. B., "Permanent magnet AC motors," Presentation to Industry Application Society, IEEE, Nov. 1980.

26. Chari, M. V. K., E. T. Laskaris, and J. D'Angelo, "Finite element analysis of a magnetic fluid seal for large-diameter high-speed rotating shafts," Intermag Conference, 21-7, Grenoble, 1981.

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29. Chari, M. V. K., "Finite element solution of the eddy-current problem in magnetic structures," IEEE Tansactions on Power Apparatus and Systems, Vol. 93, No. 1, 1973.

30. Minnich, S. H., J. W. Dougherty, and D. K. Sharma, "Calculation of generator simulation-model constants using finite element analysis," ICEM, Budapest, Hungary, Sept. 1982.

31. Donea, J., S. Giuliani, and A. Philippe, "Finite elements in the solution of electromagnetic induction problems," Int. J. of Num. Methods in Engineering, Vol. 8, 359-367, 1974.
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32. Foggia, A., J. C. Sabonnadiere, and P. Silvester, "Finite element solution of saturated traveling magnetic field problems," IEEE Tansactions on Power Apparatus and Systems, Vol. 94, No. 3, 1975.

33. Csendes, Z. J. and M. V. K. Chari, "General finite element analysis of rotating electric machines," International Conference on Numerical Methods in Electrical and Magnetic Field Pmblems, St. Margherita, Italy 1976.

34. Minnich, S. H., "Incremental permeabilities for transient analysis of large turbine generators by the finite element method," J. of Applied Physics, Vol. 52, No. 3, 2428-2430, Mar. 1981.
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35. Chari, M. V. K., "Finite element analysis of electrical machinery and devices (invited)," IEEE Trans. on Magnetics, Vol. 16, No. 5, Sept. 1969.

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