Aero-Engine Preliminary Design Optimization and Operability Studies Supported by a Compressor Mean-Line Design Module-Reference-Cited by-同舟云学术

Aero-Engine Preliminary Design Optimization and Operability Studies Supported by a Compressor Mean-Line Design Module

Published:2023-08-20 Issue:8 Volume:10 Page:726
ISSN:2226-4310
Container-title:Aerospace
language:en
Short-container-title:Aerospace

Author:

Alexiou Alexios¹^ORCID,Kolias Ioannis¹^ORCID,Aretakis Nikolaos¹^ORCID,Mathioudakis Konstantinos¹^ORCID

Affiliation:

1. Laboratory of Thermal Turbomachines, School of Mechanical Engineering, National Technical University of Athens, 15780 Athens, Greece

Abstract

An approach for preliminary aero-engine design, incorporating a mean-line code for the design of axial-flow, multi-stage compressors, is presented. The compressor mean-line code is developed and integrated within a framework for the preliminary design and assessment of aero-engine concepts. It is then combined with modules for compressor map generation, multi-point engine design, steady-state and transient engine off-design performance and aircraft mission analysis. Implementation examples are presented, demonstrating the determination of the optimal combination of compressor and engine design parameters for achieving minimum fuel burn over a specific aircraft mission, while obeying constraints that guarantee operability over the entire flight envelope. Constraints related to compressor stability during transient maneuvers between idle and static take-off conditions and engine temperature limits at maximum take-off are respected by the final design. The results demonstrate the potential for design trade-offs between engine performance at the aircraft mission level and compressor aerodynamic stability.

Funder

Clean Sky 2 Joint Undertaking

Publisher

MDPI AG

Subject

Aerospace Engineering

Link

https://www.mdpi.com/2226-4310/10/8/726/pdf

Reference72 articles.

1. International Coordinating Council of Aerospace Industries Associations (ICCAIA) (2019). Advancing Technology Opportunities to Further Reduce CO2 Emissions in Climate Change Mitigation: Technology and Operations in ICAO 2019 Environmental Report Aviation and Environment, ICAO. Chapter 4.

2. IATA (2023, June 22). Aircraft Technology: Net Zero Roadmap. Available online: https://www.iata.org/contentassets/8d19e716636a47c184e7221c77563c93/aircraft-technology-net-zero-roadmap.pdf.

3. Jones, S.M., Haller, W.J., and Tong, M.T. (2017). An N+3 Technology Level Reference Propulsion System.

4. Csank, J.T., and Thomas, G.L. (2017, January 10–12). Dynamic Analysis for a Geared Turbofan Engine with Variable Area Fan Nozzle. Proceedings of the 53rd AIAA/SAE/ASEE Joint Propulsion Conference, AIAA 2017-4819, Atlanta, GA, USA.

5. (2023, June 22). Electronic Code of Federal Regulations, Available online: https://www.ecfr.gov/cgi-bin/text-idx?SID=aa3a99819fbf162f142eee0ec759f8df&mc=true&node=se14.1.33_173&rgn=div8.