The aviation industry has witnessed a technological shift towards the More Electric Aircraft (MEA) concept. This shift has been driven by a number of perceived benefits including performance optimization and reduced life-cycle costs. Increased electrification within MEA has made aircraft electrical networks larger and more complex and this necessitates an increased electrical power offtake from the engine. The paralleling of multiple generation sources across the aircraft is one potential design approach which could help improve engine operability and fuel efficiency within more-electric aircraft platforms. Accordingly, this paper will investigate options for the realization of paralleled generation systems within the context of current des...
In the framework of the More Electric Aircraft (MEA), weight reduction and energy efficiency constit...
Turbine engine driven distributed electrical aircraft power systems (also referred to as Turboelectr...
The constant growth of air traffic, the demand for performance optimization and the need for decreas...
The aviation industry has witnessed a technological shift towards the More Electric Aircraft (MEA) c...
Recently, the aviation industry has witnessed a technological shift towards the More-Electric Aircra...
Driven by anticipated fuel-burn and efficiency benefits, the more-electric aircraft (MEA) concept is...
The More-Electric Aircraft (MEA) concept is a major trend in aircraft electrical power system engine...
The current need to reduce emissions from air traffic leads to a rapid transition from ponderous and...
Electrification of aircraft is a key enabler to reducing fuel burn, and hence emissions, from air tr...
Future electrical loads and increasing load trends will eventually exceed generating capacities of e...
Today’s engineers are facing new challenges when it comes to implementing more-electrical architectu...
Developing electrically-powered systems to boost the performance and reliability of tomorrow’s air...
Technological advances in the aerospace industry have improved aircraft efficiency and reduced the c...
Distributed propulsion is being considered as a possible solution to increase aircraft efficiency, r...
The aircraft industry's continued push towards the concept of a More Electric Aircraft (MEA), and Al...
In the framework of the More Electric Aircraft (MEA), weight reduction and energy efficiency constit...
Turbine engine driven distributed electrical aircraft power systems (also referred to as Turboelectr...
The constant growth of air traffic, the demand for performance optimization and the need for decreas...
The aviation industry has witnessed a technological shift towards the More Electric Aircraft (MEA) c...
Recently, the aviation industry has witnessed a technological shift towards the More-Electric Aircra...
Driven by anticipated fuel-burn and efficiency benefits, the more-electric aircraft (MEA) concept is...
The More-Electric Aircraft (MEA) concept is a major trend in aircraft electrical power system engine...
The current need to reduce emissions from air traffic leads to a rapid transition from ponderous and...
Electrification of aircraft is a key enabler to reducing fuel burn, and hence emissions, from air tr...
Future electrical loads and increasing load trends will eventually exceed generating capacities of e...
Today’s engineers are facing new challenges when it comes to implementing more-electrical architectu...
Developing electrically-powered systems to boost the performance and reliability of tomorrow’s air...
Technological advances in the aerospace industry have improved aircraft efficiency and reduced the c...
Distributed propulsion is being considered as a possible solution to increase aircraft efficiency, r...
The aircraft industry's continued push towards the concept of a More Electric Aircraft (MEA), and Al...
In the framework of the More Electric Aircraft (MEA), weight reduction and energy efficiency constit...
Turbine engine driven distributed electrical aircraft power systems (also referred to as Turboelectr...
The constant growth of air traffic, the demand for performance optimization and the need for decreas...