Experimental Investigation of the Aerodynamics of a Reverse Delta Wing in Ground Effect Using Passive Control - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Experimental Investigation of the Aerodynamics of a Reverse Delta Wing in Ground Effect Using Passive Control write by David Huitema. This book was released on 2018. Experimental Investigation of the Aerodynamics of a Reverse Delta Wing in Ground Effect Using Passive Control available in PDF, EPUB and Kindle. "Wing-in-ground effect craft utilize the lift augmentation and drag reduction experienced by aircraft flying in close proximity to the ground. Several designs use a reverse delta wing with anhedral tips due to improved stability in ground effect, despite the inferior lift generation of this planform limiting its widespread adoption. Also, archived research into reverse delta wings is limited, especially in ground effect. The aerodynamic forces generated by a slender and non-slender reverse delta wing in ground effect was experimentally investigated using force balance measurements in an open return wind tunnel. The impact of anhedral, rear planform cropping and passive control via Gurney flaplike strips was investigated.The results demonstrate that the impact of ground effect on the reverse delta wing was greatest at low angles of attack and ground clearances. Increased lift is in part a result of increased static pressure on the lower surface. Anhedral further increased lift, suggesting the stagnation of high momentum flow beneath the wing resulting in an "air tunnel" like effect and resulting in significant lift increases at low ground clearances and high anhedral angles. The relation between the lift and drag increments in ground effect was found to be approximately linear, with marginal improvement in the lift-to-drag ratio. In the freestream, employment of side-edge strips shifted the lift-curve leftward (induced camber-like effect), resulting from reduced crossflow leakage and increased windward surface pressure. Equipping these strips in ground effect significantly augmented lift with increasing strip height. An increasingly adverse pressure gradient and extension of the side-edge strip beyond the boundary layer led to increased drag with strip height. Rear planform cropping in freestream conditions had a benign impact on aerodynamic forces, while in ground effect increased lift and drag from greater ground proximity, with increased drag suggesting an enhanced disruption of the spanwise vortex filaments. The optimum configuration was found to be a 30% cropped reverse delta wing with 15-degree anhedral, equipped with side-edge strips with height of 4% of the root chord, resulting in significant lift and aerodynamic efficiency improvements alongside weight loss from the cropping. The above findings generally agreed with the results for the non-slender models, with greater force magnitudes observed for the non-slender case. A non-zero lift coefficient was observed at zero incidence for the non-slender wing in ground effect. Further study is required to elucidate the flow mechanisms.The results presented here are first of a kind for a reverse delta wing in ground effect, demonstrating that lift augmentation may be achieved on reverse delta wings operating in ground effect through the utilization of passive control. These results provide benchmark data for further studies on reverse delta wings in and out of ground effect." --
An Experimental Investigation of the Aerodynamics and Vortex Flowfield of a Reverse Delta Wing
An Experimental Investigation of the Aerodynamics and Vortex Flowfield of a Reverse Delta Wing - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook An Experimental Investigation of the Aerodynamics and Vortex Flowfield of a Reverse Delta Wing write by Lok Sun Ko. This book was released on 2017. An Experimental Investigation of the Aerodynamics and Vortex Flowfield of a Reverse Delta Wing available in PDF, EPUB and Kindle. "Reverse or inverted delta wing planforms have been employed extensively in the Lippisch-type wing-in-ground effect (WIG) craft for the past few decades. Despite their industrial applicability and popularity, the aerodynamics and the vortex flowfield generated by the reverse delta wing are, however, not available in archived publications. Extensive experimental investigations utilizing particle image velocimetry, force balances, and dye and smoke-wire flow visualizations were, therefore, conducted in this study to better understand the aerodynamic load generation and the vortex flow structure of a reverse delta wing, both slender and non-slender. The results show that for a reverse delta wing in a free stream the wing stall was delayed and had a lowered lift and drag compared to a regular or conventional delta wing at the same angle of attack. The drag reduction of the reverse delta wing, however, underperformed the decrease in the lift, rendering an improved lift-to-drag ratio compared to the regular delta wing. More importantly, the upper surface flow of the reverse delta wing was found to be characterized by the unique multiple spanwise vortex filaments. In contrast to the leading-edge vortex breakdown-induced stalling of the regular delta wing, the stalling mechanism of the reverse delta wing was found to be triggered by the breakdown of the multiple spanwise vortex filaments. Meanwhile, the reverse-delta-wing vortices were also found to be located outboard, suggesting their irrelevance to the lift generation of the reverse delta wing. The lift of the reverse delta wing was found to be mainly generated by the pressure acting on its lower surface, while the upper surface acts like a wake generator. These two streamwise counter-rotating vortices generated by the reverse delta wing were also found to became nearly axisymmetric at 0.7 chord downstream from the leading edge of the reverse delta wing. For a non-slender reverse delta wing (i.e., with a sweep angle less than 55 deg), the above-mentioned findings were found to remain unchanged but had a much smaller magnitude compared to its slender counterpart.Finally, in order to enhance the lift generation capability of the reverse delta wing, passive Gurney flaplike strips, of different heights and configurations, were applied to both the side edges and the leading edges of the reverse delta wing. The addition of the side-edge strips was found to produce a leftward shift of the lift curve, resembling a conventional trailing-edge flap, and a large lift enhancement. The large lift increment overwhelmed the corresponding drag increase, thereby leading to a further improved lift-to-drag ratio compared to the clean reverse delta wing. The lift and drag coefficients were also found to increase with the strip height. The side-edge strip-equipped wing also produced a strengthened vortex compared to its baseline wing counterpart, while the leading-edge strips were found to persistently produce a greatly diffused vortex flow, which therefore suggests a promising wingtip vortex control alternative. The downward leading-edge strip was found to be capable of delivering a delayed stall and an increased maximum lift coefficient compared to the clean baseline wing. In summary, the present first-of-its-kind experimental findings on the reverse delta wing will not only advance our understanding of the lift and drag generation and the vortex flow characteristics, but can also serve as benchmark data for CFD validation. The present study will also lay a foundation for the study of the effects of ground proximity on the reverse delta wing, and, more importantly, lead to an improved design of wing-in-ground effect craft. " --
An Experimental Investigation of the Passive Control of Reverse Delta Wing Vortex Flow Structure and Aerodynamics Characteristics
An Experimental Investigation of the Passive Control of Reverse Delta Wing Vortex Flow Structure and Aerodynamics Characteristics - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook An Experimental Investigation of the Passive Control of Reverse Delta Wing Vortex Flow Structure and Aerodynamics Characteristics write by Hongzhi Mou. This book was released on 2016. An Experimental Investigation of the Passive Control of Reverse Delta Wing Vortex Flow Structure and Aerodynamics Characteristics available in PDF, EPUB and Kindle. "This thesis summarises an experimental study of a 65-sweep reverse delta wing (RDW) by using a seven-hole pressure probe and a two-component force balance at Re = 270,000. Dye water flow visualization was also conducted in order to better understand the flow structure. Particular emphasis was placed on the variation of vortex flow quantities and critical flow parameters such as the core circulation, total circulation, tangential velocity and axial core velocity with change in chordwise locations from x/c = 0.2 to x/c = 1.5 for [alpha] = 10°- 22°. Based on lift measurements, the RDW generated less lift from [alpha] = 8° to [alpha] = 35° in comparison with the conventional delta wing (DW). Hence, lift augmentation was attempted by attaching passive control devices such as a side edge strip (SES) and a leading edge strip (LES), made from aluminum strips with different widths, which were placed perpendicularly to the wing's bottom surface. The flow field scans showed that the vortex flow underwent diffusion while it progressed in the chordwise direction. The size of the separated flow region, which originated from the spanwise vortex breakdown, increased with the angle of attack. Compared to a baseline RDW, RDW with SES generated a pair of more concentrated vortices with a higher core and total circulation values. Compared to a baseline RDW, the lift coefficient generated by the RDW with a 1.5% c SES and a 3% c SES increased by 0.18 to 0.28 on average, for angles of attack ranging from 0° to 40°. In addition, 1.5% c and 3% c SES boosted the wing's lift-to-drag ratio, for an average of 24% and 5%, respectively, from angles of attack of 10° to 20°. The dye flow visualization showed that the vortex flow generated by the RDW was located outside of the wing's surface and the vortex generated by the DW is located above the wing surface, in which suggesting the vortex lift is not applicable to a RDW. " --
A Piloted Simulator Investigation of Ground Effect on the Landing Maneuver of a Large, Tailless, Delta-wing Airplane
A Piloted Simulator Investigation of Ground Effect on the Landing Maneuver of a Large, Tailless, Delta-wing Airplane - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook A Piloted Simulator Investigation of Ground Effect on the Landing Maneuver of a Large, Tailless, Delta-wing Airplane write by C. Thomas Snyder. This book was released on 1970. A Piloted Simulator Investigation of Ground Effect on the Landing Maneuver of a Large, Tailless, Delta-wing Airplane available in PDF, EPUB and Kindle. The influence of ground effect on the landing flare characteristics of a supersonic transport airplane (SST) was investigated in a fixed cockpit simulator. Simulations of an ogee-modified delta-wing F5D-1 airplane and a subsonic jet transport were used for evaluating the simulator and as a reference configurations during landing comparisons. Dynamic responses of the SST to seven different ground-effect models during controls-fixed and constant-attitude descents are also presented, followed by piloted subjective assessments. A summary of ground effects on delta-like wings is included in the appendixes.
An Experimental Study of the Effect of Pitch Rate on Delta Wing Aerodynamics and Stability
An Experimental Study of the Effect of Pitch Rate on Delta Wing Aerodynamics and Stability - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook An Experimental Study of the Effect of Pitch Rate on Delta Wing Aerodynamics and Stability write by National Aeronautics and Space Administration (NASA). This book was released on 2018-07-02. An Experimental Study of the Effect of Pitch Rate on Delta Wing Aerodynamics and Stability available in PDF, EPUB and Kindle. The final report for the research conducted under this grant (NAG1-641) are contained in the two documents attached as Apendices A and B. The first is the presentation made to NASA Langley personnel on 10 December, 1987, which gave a brief analysis of the experiments. The second is a copy of an AIAA paper given in June 1988, which describes in detail the test setup, data acquisition and reduction, and results obtained. Bragg, M. B. Unspecified Center...
