Abdel Rahman Khatib scite author profile

This paper presents an elegant method for determining the simplest model of a power system electrical/mechanical load that will suffice for dynamic frequency power system studies and closed-loop simulation work. The strategy behind this technique is to supply the simplest load model possible that gives sufficiently accurate results for the goals of each unique modeling effort.The paper identifies the frequency characteristics of several different load types. It also identifies the level of load model detail required for testing typical power management systems, contingency-based load-shedding systems, frequency-based load-shedding systems, governor control systems, island/grid/unit autosynchronization systems, and exciter control systems.The paper describes how to lump loads without loss of fidelity, when an induction motor needs to be modeled as a single-cage or double-cage motor model, what sort of mechanical load model is appropriate, when we can assume zero inertia for a direct-on-line type of load, and how to verify the turbine/generator inertia and load inertia from field tests.This paper concludes with a simple reference that engineers can use to specify the level of detail required when modeling industrial power system loads.

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Case study: Integrating the power management system of an existing oil production field

Hao¹,

Khatib²,

Herbert

et al. 2016

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Design and development of a microgrid control system for integration of induction generation with storage capability at Saint Paul Island, Alaska

Khatib¹,

Nayak²,

Dai³

et al. 2017

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