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Adaptive Engine Technologies for Aviation CO2 Emissions Reduction (2006)

Haller, William J. ; Tong, Michael T. ; Mercer, Carolyn R.

In: CASI

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Publication Date: 2019-07-13

Description: Adaptive turbine engine technologies are assessed for their potential to reduce carbon dioxide emissions from commercial air transports.Technologies including inlet, fan, and compressor flow control, compressor stall control, blade clearance control, combustion control, active bearings and enabling technologies such as active materials and wireless sensors are discussed. The method of systems assessment is described, including strengths and weaknesses of the approach. Performance benefit estimates are presented for each technology, with a summary of potential emissions reduction possible from the development of new, adaptively controlled engine components.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2006-214392 , E-15670 , AIAA Paper 2006-5105 , 42nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference; Jul 09, 2006 - Jul 12, 2006; Sacreamento, CA; United States

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A Comparative Propulsion System Analysis for the High-Speed Civil Transport (2005)

Senick, Paul F. ; Berton, Jeffrey J. ; Seidel, Jonathan A. ; [et al.]

In: CASI

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Publication Date: 2019-07-11

Description: Six of the candidate propulsion systems for the High-Speed Civil Transport are the turbojet, turbine bypass engine, mixed flow turbofan, variable cycle engine, Flade engine, and the inverting flow valve engine. A comparison of these propulsion systems by NASA's Glenn Research Center, paralleling studies within the aircraft industry, is presented. This report describes the Glenn Aeropropulsion Analysis Office's contribution to the High-Speed Research Program's 1993 and 1994 propulsion system selections. A parametric investigation of each propulsion cycle's primary design variables is analytically performed. Performance, weight, and geometric data are calculated for each engine. The resulting engines are then evaluated on two airframer-derived supersonic commercial aircraft for a 5000 nautical mile, Mach 2.4 cruise design mission. The effects of takeoff noise, cruise emissions, and cycle design rules are examined.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2005-213414 , E-14934 , HSR007

Format: application/pdf

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Advanced Single-Aisle Transport Propulsion Design Options Revisited (2013)

Tong, Michael T. ; Berton, Jeffrey J. ; Haller, William J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Future propulsion options for advanced single-aisle transports have been investigated in a number of previous studies by the authors. These studies have examined the system level characteristics of aircraft incorporating ultra-high bypass ratio (UHB) turbofans (direct drive and geared) and open rotor engines. During the course of these prior studies, a number of potential refinements and enhancements to the analysis methodology and assumptions were identified. This paper revisits a previously conducted UHB turbofan fan pressure ratio trade study using updated analysis methodology and assumptions. The changes incorporated have decreased the optimum fan pressure ratio for minimum fuel consumption and reduced the engine design trade-offs between minimizing noise and minimizing fuel consumption. Nacelle drag and engine weight are found to be key drivers in determining the optimum fan pressure ratio from a fuel efficiency perspective. The revised noise analysis results in the study aircraft being 2 to 4 EPNdB (cumulative) quieter due to a variety of reasons explained in the paper. With equal core technology assumed, the geared engine architecture is found to be as good as or better than the direct drive architecture for most parameters investigated. However, the engine ultimately selected for a future advanced single-aisle aircraft will depend on factors beyond those considered here.

Keywords: Aircraft Propulsion and Power

Type: AIAA Paper 2013-4330 , NF1676L-16101 , AIAA Aviation Technology, Integration, and Operations (ATIO) Conference; Aug 12, 2013 - Aug 14, 2013; Los Angeles, CA; United States

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Analysis of Turbofan Design Options for an Advanced Single-Aisle Transport Aircraft (2009)

Fisher, Kenneth L. ; Berton, Jeffrey J. ; Thurman, Douglas R. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The desire for higher engine efficiency has resulted in the evolution of aircraft gas turbine engines from turbojets, to low bypass ratio, first generation turbofans, to today's high bypass ratio turbofans. It is possible that future designs will continue this trend, leading to very-high or ultra-high bypass ratio (UHB) engines. Although increased bypass ratio has clear benefits in terms of propulsion system metrics such as specific fuel consumption, these benefits may not translate into aircraft system level benefits due to integration penalties. In this study, the design trade space for advanced turbofan engines applied to a single-aisle transport (737/A320 class aircraft) is explored. The benefits of increased bypass ratio and associated enabling technologies such as geared fan drive are found to depend on the primary metrics of interest. For example, bypass ratios at which fuel consumption is minimized may not require geared fan technology. However, geared fan drive does enable higher bypass ratio designs which result in lower noise. Regardless of the engine architecture chosen, the results of this study indicate the potential for the advanced aircraft to realize substantial improvements in fuel efficiency, emissions, and noise compared to the current vehicles in this size class.

Keywords: Aircraft Propulsion and Power

Type: LF99-8327 , 9th AIAA Aviation Technology, Integration, and Operations Conference; Sep 21, 2009 - Sep 24, 2009; Hilton Head, SC; United States

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