A methodology for vehicle and mission level comparison of More Electric Aircraft subsystem solutions: Application to the flight control actuation system

@article{Chakraborty2015AMF,
  title={A methodology for vehicle and mission level comparison of More Electric Aircraft subsystem solutions: Application to the flight control actuation system},
  author={Imon Chakraborty and Dimitri N. Mavris and Mathias Emeneth and Alexander Schneegans},
  journal={Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering},
  year={2015},
  volume={229},
  pages={1088 - 1102}
}
As part of the More Electric Initiative, there is a significant interest in designing energy-optimized More Electric Aircraft, where electric power meets all non-propulsive power requirements. To achieve this goal, the aircraft subsystems must be analyzed much earlier than in the traditional design process. This means that the designer must be able to compare competing subsystem solutions with only limited knowledge regarding aircraft geometry and other design characteristics. The methodology… 
View on SAGE
txtgroup.com
40 Citations
Highly Influential Citations
3
Background Citations
15
Methods Citations
4

40 Citations

Integrating Subsystem Sizing into the More Electric Aircraft Conceptual Design Phase

The aircraft industry is transitioning from conventional aircraft subsystem architectures to more electric architectures, as part of the More Electric Initiative. This initiative presents the

A Requirements-driven Methodology for Integrating Subsystem Architecture Sizing and Analysis into the Conceptual Aircraft Design Phase

Historically, during aircraft conceptual design, only limited consideration has been given to the aircraft subsystems, which have traditionally been addressed in the subsequent design phases.

An integrated approach to vehicle and subsystem sizing and analysis for novel subsystem architectures

This work presents an integrated, modular, and tool-independent approach to the sizing and performance analysis of the aircraft and its subsystems, in which inter-dependencies are established between relevant aircraft and subsystem level parameters.

A Generic Mission-Level Flight Control Surface EMA Power Consumption Simulation Tool

The use of electromechanical actuators (EMAs) for aeronautical applications promises substantial benefits regarding efficiency and operability. To advance the design of power electronics and

A model-based design methodology for flight control systems: Global 7500 pitch control case study

  • J. Liscouët
  • Computer Science
    Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering
  • 2021
An original model-based design methodology addressing a high-performance aircraft design challenge: conflicting performance requirements resolved a design challenge blocking the Global 7500 aircraft development and prevented redesign occurrences later during the detailed design phase.

A Functional-Driven Design Approach for Advanced Flight Control Systems of Commercial Transport Aircraft

To conceive the entire design space in early phases of aircraft design, the transition from a knowledge-based to a functional-driven design approach is recommended and this contribution is to enable such a Functional Multiple Domain Matrix-based design approach for Advanced Flight Control Systems (AFCS), including multifunctional flight control devices.

Preliminary design of advanced flight control system architectures for commercial transport aircraft

The objective of this contribution is to enable the preliminary design of advanced FCS architectures for a given FCS configuration based on a comprehensive literature research, and the main subsystems are identified and simplified models of the architecture are developed.

Structural Power Performance Targets for Future Electric Aircraft

The development of commercial aviation is being driven by the need to improve efficiency and thereby lower emissions. All-electric aircraft present a route to eliminating direct fuel burning

Modelling and simulation of flight control electromechanical actuators with special focus on model architecting, multidisciplinary effects and power flows

A Preliminary Design Method of High-Power Electro-Hydrostatic Actuators Considering Design Robustness

Electro-hydrostatic actuators (EHAs) are expanding their application fields due to their combined advantages of electric and hydraulic actuation. However, the control performance, the weight, and the

References

SHOWING 1-10 OF 60 REFERENCES

Electric Actuation For Flight & Engine Control System: Evolution, Current Trends & Future Challenges

The development of reliable electrical actuation systems for aircraft flight & engine control application has been evolving recently to eliminate hydraulic systems from engine and thus improve

Flight test experience with an electromechanical actuator on the F-18 Systems Research Aircraft

Development of reliable power-by-wire actuation systems for both aeronautical and space applications has been sought to eliminate hydraulic systems from aircraft and spacecraft and thus improve

Safety-critical design of electromechanical actuation systems in commercial aircraft

Research is increasingly focusing on the incorporation of electromechanical actuators into future More Electric Aircraft. For an actuator to be feasible in a commercial aircraft, the most critical

An electromechanical actuator for a transport aircraft spoiler surface

  • G. FronistaG. Bradbury
  • Engineering
    IECEC-97 Proceedings of the Thirty-Second Intersociety Energy Conversion Engineering Conference (Cat. No.97CH6203)
  • 1997
The More Electric Aircraft Initiative (MEI) embraces the concept of utilizing electrical power for driving aircraft subsystems. Power electronics and motor drives are essential elements of the MEI.

Dimensioning Tools of MEA Actuator Systems, Including Modeling, Analysis and Technology Comparison

Aircraft design is an example of complex engineering where dimensioning tools can be valuable for the designers and decision makers in the early stage of the development process. These tools can be

Status of the United States Air Force's More Electric Aircraft initiative

Since the early 1990's, the USAF has been successfully pursuing advancement in aircraft electrical power system technologies as a means of collectively establishing the capability to reduce

A status of the United States Air Force's More Electric Aircraft initiative

  • J. Cloyd
  • Engineering
    IECEC-97 Proceedings of the Thirty-Second Intersociety Energy Conversion Engineering Conference (Cat. No.97CH6203)
  • 1997
Since the early 1990s, the United States Air Force has been successfully pursuing advancement in aircraft electrical power system technologies as a means of collectively establishing the capability

A Prototype Electrical Actuator for Aircraft Flaps

This paper considers the electrical actuation of aircraft wing surfaces, with particular emphasis on flap systems. It discusses existing hydraulic and electrohydraulic systems and proposes an

ADVANCED HIGH LIFT SYSTEM ARCHITECTURE WITH DISTRIBUTED ELECTRICAL FLAP ACTUATION

State-of-the-art high lift actuation systems predominantly consist of a mechanical transmission shaft with rotary or ballscrew actuators as well as synchronised hydraulic actuators with common

Notes on 'The electric control of large aeroplanes'

The author examines a proposal published by D.T. Glass-Hooper (see Flight, Dec. 21, 1916) for controlling an aircraft using solenoids. He than discusses the control systems used almost universally in
...