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Effect of Maximum Cruise-power Operation at Ultra-lean Mixture and Increased Spark Advance on the Mechanical Condition of Cylinder Components (1945)

Harris, Herbert B. ; Duffy, Robert T. ; Erwin, Robert D., Jr.

In: CASI

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Publication Date: 2019-06-28

Description: A continuous 50-hour test was conducted to determine the effect of maximum cruise-power operation at ultra-lean fuel-air mixture and increased spark advance on the mechanical conditions of cylinder components. The test was conducted on a nine-cylinder air-cooled radial engine at the following conditions:brake horsepower, 750; engine speed, 1900 rpm; brake mean effective pressure, 172 pounds per square inch; fuel-air ratio, 0.052; spark advance, 30 deg B.T.C.; and maximum rear-spark-plug-bushing temperature, 400 F. In addition to the data on corrosion and wear, data are presented and briefly discussed on the effect of engine operation at the conditions of this test on economy, knock, preignition, and mixture distribution. Cylinder, piston, and piston-ring wear was small and all cylinder component were in good condition at the conclusion of the 50-hour test except that all exhaust-valve guides were bellmouthed beyond the Army's specified limit and one exhaust-valve face was lightly burned. It is improbable that the light burning in one spot of the valve face would have progressed further because the burn was filled with a hard deposit so that the valve face formed an unbroken seal and the mating seat showed no evidence of burning. The bellmouthing of the exhaust-valve guides is believed to have been a result of the heavy carbon and lead-oxide deposits, which were present on the head end of the guided length of the exhaust-valve stem. Engine operational the conditions of this test was shown to result In a fuel saving of 16.8 percent on a cooled-power basis as compared with operation at the conditions recommended for this engine by the Army Air Forces for the same power.

Keywords: Aircraft Propulsion and Power

Type: NACA-WR-E-268 , NACA-MR-5I27a

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Turboelectric Aircraft Drive Key Performance Parameters and Functional Requirements (2016)

Duffy, Kirsten P. ; Jansen, Ralph H. ; Brown, Gerald V. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The purpose of this paper is to propose specific power and efficiency as the key performance parameters for a turboelectric aircraft power system and investigate their impact on the overall aircraft. Key functional requirements are identified that impact the power system design. Breguet range equations for a base aircraft and a turboelectric aircraft are found. The benefits and costs that may result from the turboelectric system are enumerated. A break-even analysis is conducted to find the minimum allowable electric drive specific power and efficiency that can preserve the range, initial weight, operating empty weight, and payload weight of the base aircraft.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2016-218919 , AIAA Paper 2015-3890 , E-19104-1 , GRC-E-DAA-TN26012 , AIAA Propulsion and Energy Forum 2015; Jul 27, 2015 - Jul 29, 2015; Orlando, FL; United States

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Electric Motor Considerations for Non-Cryogenic Hybrid Electric and Turboelectric Propulsion (2015)

Duffy, Kirsten P.

In: CASI

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Publication Date: 2019-07-13

Description: NASA Glenn Research Center is investigating hybrid electric and turboelectric propulsion concepts for future aircraft to reduce fuel burn, emissions, and noise. Systems studies show that the weight and efficiency of the electric system components need to be improved for this concept to be feasible. However, advances in motor component materials such as soft magnetic materials, hard magnetic materials, conductors, thermal insulation, and structural materials are expected in the coming years, and should improve motor performance. This study investigates several motor types for a one megawatt application, and projects the motor performance benefits of new component materials that might be available in the coming decades.

Keywords: Aircraft Propulsion and Power

Type: GRC-E-DAA-TN24480 , AIAA Propulsion and Energy Conference 2015; Jul 27, 2015 - Jul 29, 2015; Orlando, FL; United States

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Assessment of Technologies for Noncryogenic Hybrid Electric Propulsion (2015)

Dever, Timothy P. ; Duffy, Kirsten P. ; Loyselle, Patricia L. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: The Subsonic Fixed Wing Project of NASA's Fundamental Aeronautics Program is researching aircraft propulsion technologies that will lower noise, emissions, and fuel burn. One promising technology is noncryogenic electric propulsion, which could be either hybrid electric propulsion or turboelectric propulsion. Reducing dependence on the turbine engine would certainly reduce emissions. However, the weight of the electricmotor- related components that would have to be added would adversely impact the benefits of the smaller turbine engine. Therefore, research needs to be done to improve component efficiencies and reduce component weights. This study projects technology improvements expected in the next 15 and 30 years, including motor-related technologies, power electronics, and energy-storage-related technologies. Motor efficiency and power density could be increased through the use of better conductors, insulators, magnets, bearings, structural materials, and thermal management. Energy storage could be accomplished through batteries, flywheels, or supercapacitors, all of which expect significant energy density growth over the next few decades. A first-order approximation of the cumulative effect of each technology improvement shows that motor power density could be improved from 3 hp/lb, the state of the art, to 8 hp/lb in 15 years and 16 hp/lb in 30 years.

Keywords: Aircraft Propulsion and Power

Type: NASA/TP-2015-216588 , E-18787 , GRC-E-DAA-TN10454

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High Efficiency Megawatt Machine Rotating Cryocooler Conceptual Design (2019)

Passe, Paul J. ; Dyson, Rodger W. ; Jansen, Ralph H. ; [et al.]

In: CASI

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Publication Date: 2019-09-10

Description: Some of the challenges associated with developing electric aircraft propulsion systems include developing powertrain components that are both efficient and light-weight. In particular, electric motors must simultaneously achieve high efficiency by minimizing electrical and mechanical losses while also achieving high specific power by increasing the torque and/or speed. Normally increasing torque or speed will increase electrical and mechanical losses. The High Efficiency Megawatt Machine (HEMM) minimizes electrical losses by incorporating a superconductor to enable increased current on the rotor. And the rotor spins in a vacuum to minimize thermal and mechanical losses. Some organizations have been developing superconducting rotors for similar reasons using either cryogenic fluid transfer systems, fully immersed cryogenic cooling, and in a few cases utilized built-in cryogenic cooling on the rotor using a Brayton or Stirling system but the implementation was too large or inefficient for effective motor integration. Instead, a new approach for cryogenically cooling the superconducting rotor coil with an embedded rotating cryocooler is presented that fits completely within the rotating shaft.

Keywords: Aircraft Propulsion and Power

Type: GRC-E-DAA-TN71027 , AIAA/IEEE Electric Aircraft Technologies Symposium; Aug 22, 2019 - Aug 24, 2019; Indianapolis, IN; United States

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Overview of NASA GRC Research on Damping of Jet Engine Blades (2009)

Duffy, Kirsten P.

In: CASI

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Aircraft Propulsion and Power

Type: Seminar for Penn State''s Active Structures and Noise Control Group of the Center for Acoustics and Vibration; Dec 01, 2009; Philadelphia, PA; United States

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Electric Motors for Non-Cryogenic Hybrid Electric and Turboelectric Propulsion (2015)

Duffy, Kirsten P.

In: CASI

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Publication Date: 2019-07-13

Description: NASA Glenn Research Center is investigating hybrid electric and turboelectric propulsion concepts for future aircraft to reduce fuel burn, emissions, and noise. Systems studies show that the weight and efficiency of the electric system components need to be improved for this concept to be feasible. However, advances in motor component materials such as soft magnetic materials, hard magnetic materials, conductors, thermal insulation, and structural materials are expected in the coming years, and should improve motor performance. This study investigates several motor types for a one megawatt application, and projects the motor performance benefits of new component materials that might be available in the coming decades.

Keywords: Aircraft Propulsion and Power

Type: GRC-E-DAA-TN24816 , AIAA Propulsion and Energy Conference; Jul 27, 2015 - Jul 29, 2015; Orlando, FL; United States

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8

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Damping of High-temperature Shape Memory Alloys (2008)

Padula, Santo A., II ; Scheiman, Daniel A. ; Duffy, Kirsten P.

In: CASI

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Publication Date: 2019-07-13

Description: Researchers at NASA Glenn Research Center have been investigating high temperature shape memory alloys as potential damping materials for turbomachinery rotor blades. Analysis shows that a thin layer of SMA with a loss factor of 0.04 or more would be effective at reducing the resonant response of a titanium alloy beam. Two NiTiHf shape memory alloy compositions were tested to determine their loss factors at frequencies from 0.1 to 100 Hz, at temperatures from room temperature to 300 C, and at alternating strain levels of 34-35x10(exp -6). Elevated damping was demonstrated between the M(sub s) and M(sub f) phase transformation temperatures and between the A(sub s) and A(sub f) temperatures. The highest damping occurred at the lowest frequencies, with a loss factor of 0.2-0.26 at 0.1 Hz. However, the peak damping decreased with increasing frequency, and showed significant temperature hysteresis in heating and cooling. Keywords: High-temperature, shape memory alloy, damping, aircraft engine blades, NiTiHf

Keywords: Aircraft Propulsion and Power

Type: SPIE Smart Materials and Structures Conference; Mar 09, 2008 - Mar 13, 2008; San Diego, CA; United States|Nondestructive Evaluation and Health Monitoring; Mar 09, 2008 - Mar 13, 2008; San Diego, CA; United States

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9

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Optimizing Power Density and Efficiency of a Double-Halbach Array Permanent-Magnet Ironless Axial-Flux Motor (2016)

Duffy, Kirsten P.

In: CASI

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Publication Date: 2019-07-13

Description: NASA Glenn Research Center is investigating hybrid electric and turboelectric propulsion concepts for future aircraft to reduce fuel burn, emissions, and noise. Systems studies show that the weight and efficiency of the electric system components need to be improved for this concept to be feasible. This effort aims to identify design parameters that affect power density and efficiency for a double-Halbach array permanent-magnet ironless axial flux motor configuration. These parameters include both geometrical and higher-order parameters, including pole count, rotor speed, current density, and geometries of the magnets, windings, and air gap.

Keywords: Aircraft Propulsion and Power

Type: GRC-E-DAA-TN33010 , AIAA/SAE/ASEE Joint Propulsion Conference; Jul 25, 2016 - Jul 27, 2016; Salt Lake City, UT; United States

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10

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Active Vibration Reduction of Titanium Alloy Fan Blades (FAN1) Using Piezoelectric Materials (2010)

Duffy, Kirsten ; Morrison, Carlos ; Provenza, Andrew ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The NASA Glenn Research Center is developing smart adaptive structures to improve fan blade damping at resonances using piezoelectric (PE) transducers. In this paper, a digital resonant control technique emulating passive shunt circuits is used to demonstrate vibration reduction of FAN1 Ti real fan blade at the several target modes. Single-mode control and multi-mode control using one piezoelectric material are demonstrated. Also a conceptual study of how to implement this digital control system into the rotating fan blade is discussed.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2010-216335 , E-17270 , 2010 Propulsion-Safety and Affordable Readiness (P-SAR) Conference; Mar 16, 2010 - Mar 18, 2010; Jacksonville, FL; United States

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