250 research outputs found

    Design and Development of a Compressible Dynamic Stall Facility

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    A dynamic stall facility offering a unique new capability for studies of compressibility effects on dynamic stall is described. This facility features complete visual access by mounting the test airfoil between optical-quality glass windows which are rotated in unison to produce the oscillating airfoil motion associated with helicopter rotor dynamic stall. By using the density gradients associated with the rapidly changing dynamic stall flow field, this facility permits simultaneous detailed investigation of the flow on the surface as well as in the flow field surrounding airfoils experiencing dynamic stall.U.S. Army Research Office ARO 23394.2-EGU.S. Army Research Office ARO 23394.2-E

    Dynamic airfoil stall investigations

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    Experimental and computational investigations of the dynamic stall phenomenon continue to attract the attention of various research groups in the major aeronautical research laboratories. There are two reasons for this continued research interest. First, the occurrence of dynamic stall on the retreating blade of helicopters imposes a severe performance limitation and thus suggests to search for ways to delay the onset of dynamic stall. Second, the lift enhancement prior to dynamic stall presents an opportunity to achieve enhanced maneuverability of fighter aircraft. A description of the major parameters affecting dynamic stall and lift and an evaluation of research efforts prior to 1988 has been given by Carr. In this paper the authors' recent progress in the development of experimental and computational methods to analyze the dynamic stall phenomena occurring on NACA 0112 airfoils is reviewed. First, the major experimental and computational approaches and results are summarized. This is followed by an assessment of our results and an outlook toward the future

    Compressibility effects on dynamic stall of airfoils undergoing rapid transient pitching motion

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    The research was carried out in the Compressible Dynamic Stall Facility, CDSF, at the Fluid Mechanics Laboratory (FML) of NASA Ames Research Center. The facility can produce realistic nondimensional pitch rates experienced by fighter aircraft, which on model scale could be as high as 3600/sec. Nonintrusive optical techniques were used for the measurements. The highlight of the effort was the development of a new real time interferometry method known as Point Diffraction Interferometry - PDI, for use in unsteady separated flows. This can yield instantaneous flow density information (and hence pressure distributions in isentropic flows) over the airfoil. A key finding is that the dynamic stall vortex forms just as the airfoil leading edge separation bubble opens-up. A major result is the observation and quantification of multiple shocks over the airfoil near the leading edge. A quantitative analysis of the PDI images shows that pitching airfoils produce larger suction peaks than steady airfoils at the same Mach number prior to stall. The peak suction level reached just before stall develops is the same at all unsteady rates and decreases with increase in Mach number. The suction is lost once the dynamic stall vortex or vortical structure begins to convect. Based on the knowledge gained from this preliminary analysis of the data, efforts to control dynamic stall were initiated. The focus of this work was to arrive at a dynamically changing leading edge shape that produces only 'acceptable' airfoil pressure distributions over a large angle of attack range

    Interferometric investigations of compressible dynamic stall over a transiently pitching airfoil

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    The dynamic stall flow field over NACA 0012 airfoil pitching transiently from 0 - 60 at a constant rate under compressible flow conditions has been studied using the real-time technique of point diffraction interferometry. This investigation using nonintrusive diagnostics provides a quantitative description of the overall flow field, including the finer details of dynamic stall vortex formation, growth and the concomitant changes in the pressure distribution. Analysis of several hundred interferograms obtained for a range of flow conditions shows that the peak leading edge suction pressure coefficient that stall is nearly constant for a given free stream Mach number at all nondimensional pitch rates. Also, this value is below that seen in steady flow at static stall for the same Mach number, indicating that dynamic effects significantly effect the separation behavior. Further, for a given Mach number, the dynamic stall vortex seems to form rapidly at nearly the same angle of attack for all pitch rates studied. As the vortex is shed, it induces an anti-clockwise trailing edge vortex, which grows in a manner similar to that of a starting vortex. The measured peak suction pressure coefficient drops as the free stream Mach number increases. For free stream Mach numbers above 0.4, small multiple shocks appear near the leading edge

    Synthetic seeds: A review in agriculture and forestry

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    Production of synthetic seeds has unraveled new vistas in in vitro plant propagation technology, because it offers many useful advantages on a commercial scale for the propagation of a variety of crop plants. These tools provide methods for production of synthetic seeds for conversion into plantlets under in vitro and in vivo conditions. This technology is useful for multiplying and conserving the elite agricultural and endangered medicinal plant species, which are difficult to regenerate through conventional methods and natural seeds. The synthetic seed technology was developed in different economically important plant species such as vegetable crops, forage legumes, industrially important crops, cereals, spices, plantation crops, fruit crops, ornamental plants, orchids, medicinal plants and wood yielding forest trees etc. All these aspects are presented in this review.Key words: Synthetic seeds, in vitro, in vivo plant propagation

    Comparison of pitch rate history effects on dynamic stall

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    Dynamic stall of an airfoil is a classic case of forced unsteady separated flow. Flow separation is brought about by large incidences introduced by the large amplitude unsteady pitching motion of an airfoil. One of the parameters that affects the dynamic stall process is the history of the unsteady motion. In addition, the problem is complicated by the effects of compressibility that rapidly appear over the airfoil even at low Mach numbers at moderately high angles of attack. Consequently, it is of interest to know the effects of pitch rate history on the dynamic stall process. This abstract compares the results of a flow visualization study of the problem with two different pitch rate histories, namely, oscillating airfoil motion and a linear change in the angle of attack due to a transient pitching motion

    Use of essential oils as bioactive substances for antimicrobial finishing of fabrics

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    Antimicrobial compounds (essential oils) have been extracted from natural spices, such as oregano and cinnamon, using organic solvent (ethylene) by soxhlet apparatus. The above bioactive agents (5% & 10 % owf separately for both agents) are applied separately on plain cotton and polyester/cotton woven fabrics using pad-dry-cure process. For fixation of the finishing agents, glutaraldehyde (8% owf) has been used as a cross-linking agent along with sodium hypophosphite (2% owf) as the catalyst. Evaluation of the antimicrobial activity of untreated and treated fabrics has been performed quantitatively by percentage reduction test against test organisms Gram-positive bacteria Staphylococcus aureus and Gram-negative bacteria Escherichia coli. The results indicate that treated fabrics register >90% antimicrobial activity against S. aureus and E. coli bacterial strains. After 10 washes, the efficacy of antimicrobial activity is reduced by 10-20% only. A small decrease in flexibility, breaking strength and elongation properties is observed for treated fabrics. However, treated fabrics show enhanced crease recovery
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