Analysis of the Power Quality Impact of Multiple Directed Energy Loads on an Electric Ship Power System

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Date

2010-06

Authors

Hebner, R. E.
Gattozzi, A. L
Cohn, K. R
Colson, W. B.

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Abstract

The electrical power system of an all-electric ship has been modeled in Simulink for the case of a ship supporting several high power directed energy loads, among which are a Free Electron Laser (FEL), an Active Denial System (ADS), and a Laser Weapon System (LaWS). Starting from a load centered approach, and a physical description of the components of the various loads, individual models of each load plus a combined model for a system supporting simultaneously one instance of all loads have been developed. Sample case studies are presented corresponding to expected operational scenarios for a US Navy ship and to potential emergency conditions. The models have been designed to be interactive, allowing the operator to change key settings dynamically while the simulation is running, thus mimicking an actual operation of the power system on a ship in real time. A preliminary graphical user interface has also been developed to demonstrate the ability of these models to be converted into top-level training tools for Navy personnel supported by a realistic representation of the ship power system.

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R. E. Hebner, A. L. Gattozzi, K. R. Cohn, and W. B. Colson, “Analysis of the Power Quality Impact of Multiple Directed Energy Loads on an Electric Ship Power System,” 23rd Annual Solid State and Diode Laser Technology Review, Broomfield, Colorado, USA, June 15-18, 2010.