2018
DOI: 10.1109/tasc.2018.2794472
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Stability Improvement of DC Power Systems in an All-Electric Ship Using Hybrid SMES/Battery

Abstract: This version is available at https://strathprints.strath.ac.uk/64860/ Strathprints is designed to allow users to access the research output of the University of Strathclyde. Unless otherwise explicitly stated on the manuscript, Copyright © and Moral Rights for the papers on this site are retained by the individual authors and/or other copyright owners. Please check the manuscript for details of any other licences that may have been applied. You may not engage in further distribution of the material for any pro… Show more

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Cited by 79 publications
(35 citation statements)
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“…3, S1-S6 are unidirectional, reverse blocking IGBTs. More details pertaining to controlling I1 and I2 in the SMES mode can be found in [20]. Fig.…”
Section: Smes-fcl Control Methodsmentioning
confidence: 99%
“…3, S1-S6 are unidirectional, reverse blocking IGBTs. More details pertaining to controlling I1 and I2 in the SMES mode can be found in [20]. Fig.…”
Section: Smes-fcl Control Methodsmentioning
confidence: 99%
“…In [285] is studied a design of electrical distribution systems for ships and oil platforms, taking into consideration control systems and protections and a zonal distribution to improve modularity, being considered both ac and dc systems. In [286] is proposed a hybrid energy storage system based on a battery and a superconducting magnetic energy storage element in order to improve the stability of dc power systems of fully electric ships, being used a two quadrant buck-boost dc-dc converter for the battery and an asymmetrical h-bridge dc-dc converter for the superconducting magnetic energy storage element. In [287] is presented a conventional structure of an on-board ship power system (Figure 34), having been studied the power flow in the electric power system with energy storage and energy management systems, comprising ac, dc and hybrid ac-dc power grid architectures.…”
Section: Electric Shipsmentioning
confidence: 99%
“…The demand for all-electric ships (AESs) amplified rapidly in recent times and load fluctuations in the system may lead to severe issues such as increased fuel consumption, voltage fluctuation, and environmental emissions. HESS comprising of a battery (higher energy density) and SMES (higher power density) proposed in [81] in order to cater to shiploads that cause sudden changes such as maneuvering and pulse loads. As the ramp-rate of vessel-generators such as gas-generators usually are in between 30-50 MW/min range and on the other hand, pulsed load require 100 MW/s ramp-rate that is far higher than the ramp-rate of generators [94].…”
Section: Battery-smesmentioning
confidence: 99%