Advancements in Energy Storage Technologies 2018
DOI: 10.5772/intechopen.73671
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A Novel Highly Integrated Hybrid Energy Storage System for Electric Propulsion and Smart Grid Applications

Abstract: This chapter addresses potentialities and advantages of a highly integrated hybrid energy storage system (HESS) for electric propulsion and smart grids. This configuration consists of a highly integrated battery-ultracapacitor system (HIBUC) and aims to benefit from the advantages of both passive and active HESS configurations. Particularly, the integration of the ultracapacitor module (UM) within the DC-link of the DC/AC multilevel converter enables the decoupling between DC-link voltage and energy content wi… Show more

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Cited by 9 publications
(3 citation statements)
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“…In this regard, a viable and very promising solution is represented by hybrid energy storage systems (HESSs); these combine two or more ESS technologies characterized by complementary features, in order to increase the number of grid services they can provide and, thus, their economic viability [103]. Among all the possible ESS combinations, those made up of EB and UC seem the most promising [115,116]; this is mainly due to their high level of modularity, which enables them to fit different energy and/or power requirements and, thus, to provide multiple grid services simultaneously [117][118][119].…”
Section: Energy Storage Systems For Smart Distribution Networkmentioning
confidence: 99%
“…In this regard, a viable and very promising solution is represented by hybrid energy storage systems (HESSs); these combine two or more ESS technologies characterized by complementary features, in order to increase the number of grid services they can provide and, thus, their economic viability [103]. Among all the possible ESS combinations, those made up of EB and UC seem the most promising [115,116]; this is mainly due to their high level of modularity, which enables them to fit different energy and/or power requirements and, thus, to provide multiple grid services simultaneously [117][118][119].…”
Section: Energy Storage Systems For Smart Distribution Networkmentioning
confidence: 99%
“…According to the International Maritime Organization (IMO) reports, maritime transportation contributes to 2.2% of CO 2 emissions in the world in 2012, and if no action is taken, this data will increase between 50% and 250% in 2050 [1]. erefore, the IMO requires the shipbuilding industry to improve the efficiency of the onboard energy systems for the mitigation of CO 2 emissions [2][3][4]. In this context, the integrated power system (IPS) technology is used for the all-electric ship (AES), which combines electric propulsion and ship service electric grid to provide a common electrical platform [5] has become an appealing technology compared to the traditional ships.…”
Section: Introductionmentioning
confidence: 99%
“…In this regard, a viable and very promising solution is represented by hybrid energy storage systems (HESSs); these combine two or more ESS technologies characterized by complementary features, in order to increase the number of grid services they can provide and, thus, their economic viability [103]. Among all the possible ESS combinations, those made up of EB and UC seem the most promising [114,115]; this is mainly due to their high level of modularity, which enables them to fit different energy and/or power requirements and, thus, to provide multiple grid services simultaneously [116][117][118].…”
Section: Energy Storage Systems For Smart Distribution Networkmentioning
confidence: 99%