Reduced Order Modeling of a Shipboard Power System
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Date
2013-04
Authors
Abdelwahed, S.
Asrari, A.
Crider, J.
Dougal, R.A.
Faruque, M.O.
Fu, Y.
Langston, J.
Lee, Y.
Mohammadpour, H.A.
Ouroua, A.
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Publisher
IEEE
Abstract
Reduced-order average-value models form the basis of a computationally efficient approach for studying shipboard power systems. As a result of neglecting fast states, this approach generally involves solving a set of differential algebraic equations. Although the reduced-order average-value modeling approach has been well studied in the literature, as simulation languages evolve the most programmatic approach to addressing the non-linear algebraic portion of the model changes as well. In this work, a number of approaches for implementing reduced-order average-value models of a small power system are compared.
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Citation
S. Abdelwahed, A. Asrari, J. Crider, R.A. Dougal, M.O. Faruque, Y. Fu, J. Langston, Y. Lee, H.A. Mohammadpour, A. Ouroua, E. Santi, K. Shoder, S.D. Sudhoff, Y. Zhang, H. Zheng, E. Zivi, “Reduced Order Modeling of a Shipboard Power System,” IEEE Electric Ship Technologies Symposium IEEE ESTS 2013, April 22-23, 2013.