This paper presents an overview of the modelling and simulation activities conducted in support of the operation of the engine systems validation rig (ESVR) demonstrator that is being developed as part of the power optimised aircraft (POA) project. The application of the more-electric concept to a civil aircraft engine as part of this project is described, outlining the expected benefits and anticipated challenges. The paper then identifies the importance of network-level transient modelling and simulation to the development of such complex systems and outlines the manner in which it has been used to support the development of the ESVR demonstrator. Key findings from the simulation work are then presented and discussed before the paper addr...
Within aircraft electrical network designs, energy storage systems (ESS) provide a means of decoupli...
The paper presents a numerical tool named Shared Simulation Environment (SSE) developed within Clean...
Developing electrically-powered systems to boost the performance and reliability of tomorrow’s air...
Early in 2008, as part of the European funded power optimised aircraft (POA) technology project, Rol...
With the growing demand for increased electrical power offtake from aircraft engines (especially in ...
With modern passenger aircraft requiring greater levels of electrical power to supply the novel tech...
The current need to reduce emissions from air traffic leads to a rapid transition from ponderous and...
The aviation industry has witnessed a technological shift towards the More Electric Aircraft (MEA) c...
In this thesis a modeling and simulation based methodology is proposed to study the general power fl...
The complete electrification of aircraft power systems entails the implementation of smart logics fo...
The system integration is becoming a central topic when developing the future More Electric Aircraft...
The subject of this paper is to make an analysis of advanced autonomous power systems (EPS, PES), in...
The development of future more-electric air-craft systems is a challenging process: The respective s...
The paper presents a numerical tool named Shared Simulation Environment (SSE) developed at the Unive...
In upcoming and future airplanes, more nonlinear electrical loads and loads behaving nonlinearly wil...
Within aircraft electrical network designs, energy storage systems (ESS) provide a means of decoupli...
The paper presents a numerical tool named Shared Simulation Environment (SSE) developed within Clean...
Developing electrically-powered systems to boost the performance and reliability of tomorrow’s air...
Early in 2008, as part of the European funded power optimised aircraft (POA) technology project, Rol...
With the growing demand for increased electrical power offtake from aircraft engines (especially in ...
With modern passenger aircraft requiring greater levels of electrical power to supply the novel tech...
The current need to reduce emissions from air traffic leads to a rapid transition from ponderous and...
The aviation industry has witnessed a technological shift towards the More Electric Aircraft (MEA) c...
In this thesis a modeling and simulation based methodology is proposed to study the general power fl...
The complete electrification of aircraft power systems entails the implementation of smart logics fo...
The system integration is becoming a central topic when developing the future More Electric Aircraft...
The subject of this paper is to make an analysis of advanced autonomous power systems (EPS, PES), in...
The development of future more-electric air-craft systems is a challenging process: The respective s...
The paper presents a numerical tool named Shared Simulation Environment (SSE) developed at the Unive...
In upcoming and future airplanes, more nonlinear electrical loads and loads behaving nonlinearly wil...
Within aircraft electrical network designs, energy storage systems (ESS) provide a means of decoupli...
The paper presents a numerical tool named Shared Simulation Environment (SSE) developed within Clean...
Developing electrically-powered systems to boost the performance and reliability of tomorrow’s air...