This article reports on the design, development, and validation of advanced prototype 2 MVA generation equipment [i.e., naval package (NP)] for a shipboard medium-voltage dc integrated power system (MVDC IPS). The generation equipment is based on an ultrahigh-speed 22,500-r/min 12-phase alternator, which feeds an ac/dc power electronics converter comprising four diode rectifiers and four insulated-gate bipolar transistor (IGBT) choppers. The prototype realization constitutes a follow-up of a previous NP version employing a wound-field 6,300-r/min alternator feeding noncontrolled ac/dc converters. The major technical challenges faced in the design and development of the advanced NP prototype are outlined in this article, taking the previous lower-speed version as a technology reference. The system performance, as determined by the testing campaign, and lessons learned for future studies are addressed.
Shipboard Power Generation: Design and Development of a Medium-Voltage dc Generation System / Sulligoi, Giorgio; Tessarolo, Alberto; V., Benucci; A., Millerani Trapani; M., Baret; F., Luise. - In: IEEE INDUSTRY APPLICATIONS MAGAZINE. - ISSN 1077-2618. - STAMPA. - Vol 19:No 4(2013), pp. 47-55. [10.1109/MIAS.2012.2215643]
Shipboard Power Generation: Design and Development of a Medium-Voltage dc Generation System
SULLIGOI, GIORGIO;TESSAROLO, ALBERTO;
2013-01-01
Abstract
This article reports on the design, development, and validation of advanced prototype 2 MVA generation equipment [i.e., naval package (NP)] for a shipboard medium-voltage dc integrated power system (MVDC IPS). The generation equipment is based on an ultrahigh-speed 22,500-r/min 12-phase alternator, which feeds an ac/dc power electronics converter comprising four diode rectifiers and four insulated-gate bipolar transistor (IGBT) choppers. The prototype realization constitutes a follow-up of a previous NP version employing a wound-field 6,300-r/min alternator feeding noncontrolled ac/dc converters. The major technical challenges faced in the design and development of the advanced NP prototype are outlined in this article, taking the previous lower-speed version as a technology reference. The system performance, as determined by the testing campaign, and lessons learned for future studies are addressed.Pubblicazioni consigliate
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