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- Title
New Numerical Integration Methods for Simulation of Electromagnetic Transients.
- Authors
Chakraborty, Soham; Ramanujam, R.
- Abstract
This paper proposes two new methods of numerical integration for computation of electromagnetic transients. In the most widely used electromagnetic transients program (EMTP) trapezoidal method (TM) is employed for computation of transients. The TM has many desirable properties but in certain situations it can give rise to non-physical time step oscillations because it does not possess stiff decay property. The proposed methods effectively damp out/eliminate these oscillations. The first method is a single-step single-stage method and the second one is a single-step two-stage method. Both methods possess stiff decay property. The performance of the methods are investigated using techniques such as Z-transform analysis, magnitude and phase plots, regions of absolute stability and time-domain simulations. The investigations include comparison of results from two well-known implicit methods and an existing two-stage method. The proposed methods possess many desirable properties and can be considered for computation of electromagnetic transients and engineering problems that require stiff system computations. In addition to the above, a more efficient algorithm to include non-linear elements has been proposed for the two-stage method.
- Subjects
NUMERICAL integration; ELECTROMAGNETISM; ELECTRIC transients; STIFF computation (Differential equations); TRAPEZOIDS; SIMULATION methods &; models
- Publication
International Journal of Emerging Electric Power Systems, 2018, Vol 19, Issue 4, pN.PAG
- ISSN
1553-779X
- Publication type
Article
- DOI
10.1515/ijeeps-2018-0122