A promising solution to improve tomorrow's all-electric ship onboard power system design and performance relies on moving from 50-Hz or 60-Hz AC distribution to a Medium-Voltage DC (MVDC) grid. This paper provides a review of presently-available and under-development technologies for electric generators to be used in perspective MVDC shipboard systems. The inspiring reason for the survey lies in the fact that an MVDC grid design removes the constraints usually imposed on shipboard generation group design and opens the way for a wide variety of non-conventional machine alternatives. In combination of high-speed gas turbines, that can be employed as prime movers, several electric machine topologies, not yet used for ship applications, can be ...
Since shipboard power systems are inherently islanded and consist of energy intensive sources and lo...
Summarization: The current trends in ship technology are turning ships into more energy efficient on...
Today most of the diesel-electric systems on board ships are based on an AC-distribution of the gene...
This article reports on the design, development, and validation of advanced prototype 2 MVA generati...
This paper presents a complete review of MVDC applications and their required technologies. Four mai...
Medium Voltage DC (MVDC) distribution Power Systems for all-electric ships (AES) can be regarded as ...
Integrated Power Systems (IPS) with DC distribution require the massive use of power electronics for...
This paper presents comparative evaluation and explores the different technologies suitable for the ...
With the fast development of power electronics techniques, electrification of shipboard power system...
The application of dc power systems to microgrids, such as the power system for vessels and islands,...
Ensuring system stability in Medium-Voltage DC (MVDC) Integrated Power Systems (IPS) is a key issue,...
The new, all electric class of United States Navy Destroyer requires significantly more electric pow...
Medium Voltage Direct Current (MVDC) distribution is an enabling technology for future large ships, ...
The growth in the electric power industry’s portfolio of Direct Current (DC) based generation and lo...
The interest in using a superconducting (SC) distribution grid on a ship designed with a medium volt...
Since shipboard power systems are inherently islanded and consist of energy intensive sources and lo...
Summarization: The current trends in ship technology are turning ships into more energy efficient on...
Today most of the diesel-electric systems on board ships are based on an AC-distribution of the gene...
This article reports on the design, development, and validation of advanced prototype 2 MVA generati...
This paper presents a complete review of MVDC applications and their required technologies. Four mai...
Medium Voltage DC (MVDC) distribution Power Systems for all-electric ships (AES) can be regarded as ...
Integrated Power Systems (IPS) with DC distribution require the massive use of power electronics for...
This paper presents comparative evaluation and explores the different technologies suitable for the ...
With the fast development of power electronics techniques, electrification of shipboard power system...
The application of dc power systems to microgrids, such as the power system for vessels and islands,...
Ensuring system stability in Medium-Voltage DC (MVDC) Integrated Power Systems (IPS) is a key issue,...
The new, all electric class of United States Navy Destroyer requires significantly more electric pow...
Medium Voltage Direct Current (MVDC) distribution is an enabling technology for future large ships, ...
The growth in the electric power industry’s portfolio of Direct Current (DC) based generation and lo...
The interest in using a superconducting (SC) distribution grid on a ship designed with a medium volt...
Since shipboard power systems are inherently islanded and consist of energy intensive sources and lo...
Summarization: The current trends in ship technology are turning ships into more energy efficient on...
Today most of the diesel-electric systems on board ships are based on an AC-distribution of the gene...