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Tradespace Exploration of Distributed Propulsors for Advanced On-Demand Mobility Concepts (2014)

Turnbull, Andrew R. ; Moore, Mark D. ; Borer, Nicholas K.

In: CASI

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Publication Date: 2019-07-13

Description: Combustion-based sources of shaft power tend to significantly penalize distributed propulsion concepts, but electric motors represent an opportunity to advance the use of integrated distributed propulsion on an aircraft. This enables use of propellers in nontraditional, non-thrust-centric applications, including wing lift augmentation, through propeller slipstream acceleration from distributed leading edge propellers, as well as wingtip cruise propulsors. Developing propellers for these applications challenges long-held constraints within propeller design, such as the notion of optimizing for maximum propulsive efficiency, or the use of constant-speed propellers for high-performance aircraft. This paper explores the design space of fixed-pitch propellers for use as (1) lift augmentation when distributed about a wing's leading edge, and (2) as fixed-pitch cruise propellers with significant thrust at reduced tip speeds for takeoff. A methodology is developed for evaluating the high-level trades for these types of propellers and is applied to the exploration of a NASA Distributed Electric Propulsion concept. The results show that the leading edge propellers have very high solidity and pitch well outside of the empirical database, and that the cruise propellers can be operated over a wide RPM range to ensure that thrust can still be produced at takeoff without the need for a pitch change mechanism. To minimize noise exposure to observers on the ground, both the leading edge and cruise propellers are designed for low tip-speed operation during takeoff, climb, and approach.

Keywords: Aircraft Design, Testing and Performance

Type: AIAA Paper-2014-2850 , NF1676L-17830 , AVIATION 2014 (The Aviation and Aeronautics Forum and Exposition); Jun 16, 2014 - Jun 20, 2014; Atlanta, GA; United States

Format: application/pdf

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Low Energy Nuclear Reaction Aircraft- 2013 ARMD Seedling Fund Phase I Project (2014)

Daniel, Jason ; Waddington, Michael ; Green, Clayton ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: This report serves as the final written documentation for the Aeronautic Research Mission Directorate (ARMD) Seedling Fund's Low Energy Nuclear Reaction (LENR) Aircraft Phase I project. The findings presented include propulsion system concepts, synergistic missions, and aircraft concepts. LENR is a form of nuclear energy that potentially has over 4,000 times the energy density of chemical energy sources. It is not expected to have any harmful emissions or radiation which makes it extremely appealing. There is a lot of interest in LENR, but there are no proven theories. This report does not explore the feasibility of LENR. Instead, it assumes that a working system is available. A design space exploration shows that LENR can enable long range and high speed missions. Six propulsion concepts, six missions, and four aircraft concepts are presented. This report also includes discussion of several issues and concerns that were uncovered during the study and potential research areas to infuse LENR aircraft into NASA's aeronautics research.

Keywords: Aircraft Design, Testing and Performance

Type: NASA/TM-2014-218283 , L-20436 , NF1676L-19211

Format: application/pdf

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Drag Reduction Through Distributed Electric Propulsion (2014)

Bevirt, JoeBen ; Fredericks, William J. ; Borer, Nicholas K. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: One promising application of recent advances in electric aircraft propulsion technologies is a blown wing realized through the placement of a number of electric motors driving individual tractor propellers spaced along each wing. This configuration increases the maximum lift coefficient by providing substantially increased dynamic pressure across the wing at low speeds. This allows for a wing sized near the ideal area for maximum range at cruise conditions, imparting the cruise drag and ride quality benefits of this smaller wing size without decreasing takeoff and landing performance. A reference four-seat general aviation aircraft was chosen as an exemplary application case. Idealized momentum theory relations were derived to investigate tradeoffs in various design variables. Navier-Stokes aeropropulsive simulations were performed with various wing and propeller configurations at takeoff and landing conditions to provide insight into the effect of different wing and propeller designs on the realizable effective maximum lift coefficient. Similar analyses were performed at the cruise condition to ensure that drag targets are attainable. Results indicate that this configuration shows great promise to drastically improve the efficiency of small aircraft.

Keywords: Aircraft Design, Testing and Performance

Type: AIAA Paper 2014-2851 , NF1676L-19130 , AIAA Aviation Technology, Integration, and Operations Conference; Jun 16, 2014 - Jun 20, 2014; Atlanta, GA; United States

Format: application/pdf

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Aeroelastic Tailoring of the NASA Common Research Model via Novel Material and Structural Configurations (2014)

Stanford, Bret K. ; Moore, James B. ; Wieseman, Carol D. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This work explores the use of tow steered composite laminates, functionally graded metals (FGM), thickness distributions, and curvilinear rib/spar/stringer topologies for aeroelastic tailoring. Parameterized models of the Common Research Model (CRM) wing box have been developed for passive aeroelastic tailoring trade studies. Metrics of interest include the wing weight, the onset of dynamic flutter, and the static aeroelastic stresses. Compared to a baseline structure, the lowest aggregate static wing stresses could be obtained with tow steered skins (47% improvement), and many of these designs could reduce weight as well (up to 14%). For these structures, the trade-off between flutter speed and weight is generally strong, although one case showed both a 100% flutter improvement and a 3.5% weight reduction. Material grading showed no benefit in the skins, but moderate flutter speed improvements (with no weight or stress increase) could be obtained by grading the spars (4.8%) or ribs (3.2%), where the best flutter results were obtained by grading both thickness and material. For the topology work, large weight reductions were obtained by removing an inner spar, and performance was maintained by shifting stringers forward and/or using curvilinear ribs: 5.6% weight reduction, a 13.9% improvement in flutter speed, but a 3.0% increase in stress levels. Flutter resistance was also maintained using straightrotated ribs although the design had a 4.2% lower flutter speed than the curved ribs of similar weight and stress levels were higher. These results will guide the development of a future design optimization scheme established to exploit and combine the individual attributes of these technologies.

Keywords: Aircraft Design, Testing and Performance

Type: AIAA Paper-2014-0344 , NF1676L-16610 , AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference; Jan 13, 2014 - Jan 17, 2014; National Harbor, MD; United States

Format: application/pdf

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Aeroelastic Tailoring of a Plate Wing with Functionally Graded Materials (2014)

Dunning, Peter D. ; Kim, H. Alicia ; Jutte, Christine V. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This work explores the use of functionally graded materials for the aeroelastic tailoring of a metallic cantilevered plate-like wing. Pareto trade-off curves between dynamic stability (flutter) and static aeroelastic stresses are obtained for a variety of grading strategies. A key comparison is between the effectiveness of material grading, geometric grading (i.e., plate thickness variations), and using both simultaneously. The introduction of material grading does, in some cases, improve the aeroelastic performance. This improvement, and the physical mechanism upon which it is based, depends on numerous factors: the two sets of metallic material parameters used for grading, the sweep of the plate, the aspect ratio of the plate, and whether the material is graded continuously or discretely.

Keywords: Aircraft Design, Testing and Performance

Type: AIAA Paper-2014-0344 , NF1676L-16609 , AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference; Jan 13, 2014 - Jan 17, 2014; National Harbor, MD; United States

Format: application/pdf

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Helicopter Fuselage Active Flow Control in the Presence of a Rotor (2014)

Overmeyer, Austin D. ; Wilson, Jacob S. ; Martin, Preston B ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: This work extends previous investigations of active flow control for helicopter fuselage drag and download reduction to include the effects of the rotor. The development of the new wind tunnel model equipped with fluidic oscillators is explained in terms of the previous test results. Large drag reductions greater than 20% in some cases were measured during powered testing without increasing, and in some cases decreasing download in forward flight. As confirmed by Particle Image Velocimetry (PIV), the optimum actuator configuration that provided a decrease in both drag and download appeared to create a virtual (fluidic) boat-tail fairing instead of attaching flow to the ramp surface. This idea of a fluidic fairing shifts the focus of 3D separation control behind bluff bodies from controlling/reattaching surface boundary layers to interacting with the wake flow.

Keywords: Aircraft Design, Testing and Performance

Type: NF1676L-18577 , American Helicopter Society Annual Forum; May 20, 2014 - May 22, 2014; Montreal, Quebec, Canada; Canada

Format: text

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