Real-time simulation of shipboard power system and energy storage device management

Master of Science === Department of Electrical and Computer Engineering === Noel Schulz === Many situations can cause a fault on a shipboard power system, especially in naval battleships. Batteries and ultra-capacitors are simulated to be backup energy storage devices (ESDs) to power the shipboard p...

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Main Author: Li, Dingyi
Language:en_US
Published: Kansas State University 2014
Subjects:
Online Access:http://hdl.handle.net/2097/17857
id ndltd-KSU-oai-krex.k-state.edu-2097-17857
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spelling ndltd-KSU-oai-krex.k-state.edu-2097-178572016-03-01T03:51:59Z Real-time simulation of shipboard power system and energy storage device management Li, Dingyi Real-time Shipboard Power System Energy Storage Devices Power Management System Li-iron Battery Electrical Engineering (0544) Energy (0791) Engineering (0537) Master of Science Department of Electrical and Computer Engineering Noel Schulz Many situations can cause a fault on a shipboard power system, especially in naval battleships. Batteries and ultra-capacitors are simulated to be backup energy storage devices (ESDs) to power the shipboard power system when an outage or damage occurs. Because ESDs have advantages such as guaranteed load leveling, good transient operation, and energy recovery during braking operation, they are commonly used for electrical ship applications. To fulfill these requirements, an energy management subsystem (EMS) with a specific control algorithm must connect ESDs to the dc link of the motor drive system. In this research, the real-time simulation of shipboard power system (SPS), bidirectional DC-DC converter, EMS, and ESDs are designed, implemented, and controlled on OPAL-RT system to test SPS survivability and ESD performance in various speed operations. 2014-06-17T13:19:40Z 2014-06-17T13:19:40Z 2014-06-17 2014 May Thesis http://hdl.handle.net/2097/17857 en_US Kansas State University
collection NDLTD
language en_US
sources NDLTD
topic Real-time
Shipboard Power System
Energy Storage Devices
Power Management System
Li-iron Battery
Electrical Engineering (0544)
Energy (0791)
Engineering (0537)
spellingShingle Real-time
Shipboard Power System
Energy Storage Devices
Power Management System
Li-iron Battery
Electrical Engineering (0544)
Energy (0791)
Engineering (0537)
Li, Dingyi
Real-time simulation of shipboard power system and energy storage device management
description Master of Science === Department of Electrical and Computer Engineering === Noel Schulz === Many situations can cause a fault on a shipboard power system, especially in naval battleships. Batteries and ultra-capacitors are simulated to be backup energy storage devices (ESDs) to power the shipboard power system when an outage or damage occurs. Because ESDs have advantages such as guaranteed load leveling, good transient operation, and energy recovery during braking operation, they are commonly used for electrical ship applications. To fulfill these requirements, an energy management subsystem (EMS) with a specific control algorithm must connect ESDs to the dc link of the motor drive system. In this research, the real-time simulation of shipboard power system (SPS), bidirectional DC-DC converter, EMS, and ESDs are designed, implemented, and controlled on OPAL-RT system to test SPS survivability and ESD performance in various speed operations.
author Li, Dingyi
author_facet Li, Dingyi
author_sort Li, Dingyi
title Real-time simulation of shipboard power system and energy storage device management
title_short Real-time simulation of shipboard power system and energy storage device management
title_full Real-time simulation of shipboard power system and energy storage device management
title_fullStr Real-time simulation of shipboard power system and energy storage device management
title_full_unstemmed Real-time simulation of shipboard power system and energy storage device management
title_sort real-time simulation of shipboard power system and energy storage device management
publisher Kansas State University
publishDate 2014
url http://hdl.handle.net/2097/17857
work_keys_str_mv AT lidingyi realtimesimulationofshipboardpowersystemandenergystoragedevicemanagement
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