Author :
Abdelwahed, Sherif ; Asrari, A. ; Crider, J. ; Dougal, Roger A. ; FARUQUE, M. OMAR ; Fu, Yi-Shiang ; Langston, Jerrod ; Lee, Youngjoo ; Mohammadpour, Hossein Ali ; Ouroua, A. ; Santi, Enrico ; Shoder, K. ; Sudhoff, Scott D. ; Zhang, Ye ; Zheng, Haomian ;
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.
Keywords :
differential algebraic equations; marine power systems; reduced order systems; simulation languages; differential algebraic equations; nonlinear algebraic portion; reduced-order average-value modeling approach; reduced-order average-value models; shipboard power system; simulation languages; Computational modeling; Equations; Load modeling; Mathematical model; Numerical models; Power systems; Synchronous machines;
