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101	Single-Hole Film Cooling on a Turbine-Blade Leading-Edge Model MISHRA, SUMAN 18 April 2008 (has links) No description available. Engineering, Mechanical
102	Modifications of Coherent Structures in Fan Blade Wakes for Broadband Noise Reduction Borgoltz, Aurelien 11 December 2007 (has links) The effects of trailing edge flow control on the wakes of a linear cascade of idealized fan blades was investigated experiments with a view to the likely effects on broadband aircraft engine interaction noise. Single and three-component hotwire velocity measurements were made downstream of the cascade for a chord Reynolds number of 390,000 and a Mach number of 0.07. Measurements of the two-point velocity correlation were used extensively to evaluate the impact of various flow control strategies on the organization of the coherent structures of the wakes and their potential to generate noise. A baseline flow was established by measuring the wake downstream of unmodified GE-Rotor-B blades. Four sets of serrated trailing edge blades (with two different serration sizes and with two trailing edge cambers) and three sets of blades with trailing edge blowing (a simple rectangular slot, rectangular slot with Kuethe-vane vortex generators, and rectangular slot with serrated lips) were tested. The serrated trailing edges introduce corrugations into the wake, increase the wake decay and width as well as turbulence levels (possibly because of the blunt trailing edge created at the serration valley). The serrated trailing edges also increase the turbulence scales in the direction perpendicular to the plane of the wake because of the injection of streamwise vorticity. In almost all cases the serrations reduce the spanwise and streamwise turbulence scales. Serrations do not, however, affect the apparent time scale of quasi-periodic structures in the wake, and this appears to limit the potential of this trailing edge treatment to reduce broadband noise. The analysis of the characteristic eddies (obtained from proper orthogonal decomposition combined with linear estimation) revealed that the serrations do not change the qualitative form of the eddies. Trailing edge blowing was found to significantly decrease the wake deficit and width as well as the turbulence levels at all blowing rates. Blowing through the simple rectangular slot, at mass flow rates between 1.4 and 2.0% of the total passage through flow, was shown to significantly affect the size, the organization and the strength of the coherent structures. For small blowing rates the strong spanwise eddies near the trailing edge actually appear to be enhanced. For larger blowing rates, however, the turbulent scales are reduced in all directions. The addition of Kuethe vanes on the suction side of the blowing blade results in a low momentum region just downstream of the vanes that may result from flow separation there. This further enhances the shedding and increases the blowing rate needed to overcome it. The serrated blowing blades show the greatest potential to reduce broadband noise as they reduce the turbulence levels and scales without creating potentially detrimental structures. While no acoustic measurements were made, analysis of hypothetical perpendicular and parallel interactions of blades with these wakes has made possible to characterize for the first time the impact of the changes in the eddy structure of these wakes on their potential to generate broadband noise. The serrated trailing edges (especially the larger serrations) actually increase the potential of the wake to generate broadband noise (a direct consequence in the overall increase in turbulence scale and intensity). In contrast, every trailing edge blowing configuration was found to produce large reductions in the potential noise (a maximum of 6dB reduction was obtained at 2.0% blowing). The addition of Kuethe vanes on the suction side of the blowing blades significantly reduced the efficiency of the simple blowing configuration (a result of the increased coherency associated with the shedding of streamwise vorticity by the vanes). The serrated blowing configuration was found to yield reductions similar to the simple blowing configuration. / Ph. D. Turbulence Coherent Structures Aircraft Engine Fan Broadband Noise Rotor-stator interaction Serrated Trailing Edge Blowing.
103	Investigation of Inlet Guide Vane Wakes in a F109 Turbofan Engine with and without Flow Control Kozak, Jeffrey D. 14 September 2000 (has links) A series of experiments were conducted in a F109 turbofan engine to investigate the unsteady wake profiles of an Inlet Guide Vane (IGV) at a typical spacing to the downstream fan at subsonic and transonic relative blade velocities. The sharp trailing-edge vanes were designed to produce a wake profile consistent with modern IGV. Time averaged baseline measurements were first performed with the IGV located upstream of the aerodynamic influence of the fan. Unsteady experiments were performed with an IGV-fan spacing of 0.43 fan chords. High-frequency on-vane pressure measurements showed strong peak-to-peak amplitudes at the blade passing frequency (BPF) of 4.7 psi at the transonic fan speeds. High-frequency total pressure measurements of the IGV wake were taken between the IGV and fan. Results showed that the total pressure loss coefficient of the time averaged IGV wake is reduced by 30% for the subsonic fan, and increased by a factor of 2 for the transonic fan compared to the baseline. Time resolved wake profiles for subsonic fan speeds show constructive and destructive interactions over each blade pass generated by the fan potential flow field. Time resolved wake profiles for the transonic fan speeds show that shock interactions with the IGV surface result in the wake shedding off of the vane at the BPF. Furthermore, the effectiveness of trailing edge blowing (TEB) flow control was investigated. TEB is the method of injecting air aft of the IGV to reduce the low pressure regions (deficits) in the viscous wakes shed by the vanes. Minimizing the IGV wakes reduces the forcing function on the downstream fan blades, thereby reducing high cycle fatigue. The TE span of the vane contains discrete holes at the axial centerline for TEB. Baseline results showed that TEB eliminates the IGV wake, while using only 0.03% of the total engine mass flow per IGV. TEB for the subsonic fan at the close spacing shows complete wake filling using the same mass flow as the baseline. TEB for the transonic fan shows a reduction of 68% in the total pressure loss coefficient, while requiring 2.5 times the mass flow as the baseline. / Ph. D. Wake Fan Inlet Guide Vane Trailing Edge Blowing F109 Transonic Flow Control Unsteady Stator-rotor
104	Effects of Inlet Guide Vane Flow Control on Forced Response of a Transonic Fan Bailie, Samuel Todd 20 November 2003 (has links) The main contributor to the high-cycle fatigue of compressor blades is the response to aerodynamic forcing functions generated by an upstream row of stators or inlet guide vanes. Resonant response to engine order excitation at certain rotor speeds is especially damaging. Studies have shown that flow control by trailing edge blowing (TEB) can reduce stator wake strength and the amplitude of the downstream rotor blade vibrations generated by the unsteady stator-rotor interaction. In the present study, the effectiveness of TEB to reduce forced blade vibrations was evaluated in a modern single-stage transonic compressor rig. A row of wake generator (WG) vanes with TEB capability was installed upstream of the fan blisk, the blades of which were instrumented with strain gages. Data was collected for varied TEB conditions over a range of rotor speed which included one fundamental and multiple harmonic resonance crossings. Sensitivity of resonant response amplitude to full-span TEB flowrate, as well as optimal TEB flowrates, are documented for multiple modes. Resonant response sensitivity was generally characterized by a robust region of substantial attenuation, such that less-than-optimal TEB flowrates could prove to be an appropriate design tradeoff. The fundamental crossing amplitude of the first torsion mode was reduced by as much as 85% with full-span TEB at 1.1% of the total rig inlet flow. Similar reductions were achieved for the various harmonic crossings, including as much as 94% reduction of the second leading edge bending mode resonant response using 0.74% of the rig flow for full-span TEB. At least 32% reduction was achieved for all modal crossings over the broad flow range of 0.5 to 0.9% of the rig flow. Thus the results demonstrate the modal- and flowrate-robustness of full-span TEB for reducing forced response in a modern, closely-spaced transonic compressor. Reduced spanwise TEB coverage was generally found to provide less peak reduction. Widely varying sensitivities of the vibration modes to the spanwise TEB distribution were also noted. While the second chordwise mode experienced roughly the same maximum response reduction of 80% for all of the spanwise TEB configurations, some other modes were amplified from the baseline case under part-span TEB conditions. Part-span TEB was thus found to be less modally-robust than full-span TEB. / Ph. D. trailing edge blowing blade vibration flow control compressor transonic forced response
105	Survival of Vibro vulnificus and other Vibrios in raw oysters (Crassostrea virginica) during processing in Virginia and cold storage Ostrander, Vicki C. 01 November 2008 (has links) The objective of this research was to determine if Vibrio populations, specifically V. vulnificus were affected in oysters by the processing methods employed in Virginia. This study was conducted between July and September in 1995 and during the month of August of 1996 when water temperature was expected to be high. Oysters were harvested from Virginia and the Gulf coast and shucked and blown by Virginia processors. They were tested for aerobic plate counts incubated at 35-37°C, salt content, pH, total Vibrios and V. vulnificus populations before and after processing. Oysters were stored in crushed ice and maintained an internal temperature of 1°C and tested at 5, 10, and 15 days after processing. Oysters were also stored at -9°C tested every one to two weeks. Procedures described in the Food and Drug Administration’s Bacteriological Analytical Manual for identification of V. vulnificus were followed. V. vulnificus populations were not significantly affected by blowing. V. vulnificus populations decreased in oysters stored at 1°C and -9°C. V. vulnificus levels decreased faster in blown oysters harvested from the Gulf coast. Vibrio populations were not significantly reduced by blowing in oysters that were 1°C. Oysters stored at -9°C showed decreased Vibrio populations. pH and APC showed an inverse relationship in oysters that were 1°C. In oysters stored at -9°C, pH and APC showed a positive correlation. Significance of these correlations varied. / Master of Science oysters Vibrio vulnificus storage blowing freezing refrigeration Crassostrea virginica LD5655.V855 1996.O887
106	Aerodynamic Performance of a Flow Controlled Compressor Stator Using an Imbedded Ejector Pump Carter, Casey Joseph 26 February 2001 (has links) A high-turning compressor stator with a unique flow control design was developed and tested. Both boundary layer suction and trailing edge blowing developed from a single supplied motive pressure source are employed on the stator. Massflow removed through boundary layer suction is added to the motive massflow, and the resulting combined flow is used for trailing edge blowing to reduce the total pressure deficit generated by the stator wake. The effectiveness of the flow control design was investigated experimentally by measuring the reduction in the total pressure loss coefficient. The experiment was conducted in a linear transonic blowdown cascade wind tunnel. The inlet Mach number for all tests was 0.79, with a Reynolds number based on stator chordlength of 2,000,000. A range of inlet cascade angles was tested to identify the useful range of the flow control design. The effect of different supply massflows represented as a percentage of the passage throughflow was also documented. Significant reductions in the total pressure loss coefficient were accomplished with flow control at low cascade angles. A maximum reduction of 65% in the baseline (no flow control) loss coefficient was achieved by using a motive massflow of 1.6% of the passage throughflow, at cascade angle of 0°. The corresponding suction and blowing massflow ratio was approximately 1:3.6. Cascade angle results near 0° showed significant reductions in the loss coefficient, while increases in the cascade angle diminished the effects of flow control. Considerable suction side separation and the presence of a leading edge shock are noticeable as the cascade angle is increased, and contribute to the losses across the stator surface. Also identified was the estimated increase in wake turning due to flow control of up to 4.5°. / Master of Science Flow Control Compressor Cascade Trailing Edge Blowing Aerodynamic Loss Boundary Layer Suction
107	Process in glass art : a study of some technical and conceptual issues Hemp, Doreen 11 1900 (has links) Glass has been made and used for centuries but South African artists, isolated for the last three decades, are only now becoming aware of the potential of hot or warm glass as an art medium. In antiquity glass objects were created using various processes but the 'factory' tradition began with the discovery of the blowing iron in the first century AD. The invention of the tank furnace in the late 1950s revolutionised modem production, enabling individual artists to make glass in private studios without blowing teams. The research describes ancient.. glassmaking processes and indicates how they have been explored, adapted and used by contemporary artists world wide, challenging craft orientated paradigms, and proving that glass is a viable and important sculpture medium. The practical research demonstrates the application of many processes and relates technical issues to sculptural concepts which are realized through the physical and material properties of glass. / Art History, Visual Arts & Musicology / M.A. (Fine Art) Glass - ancient history Modern and contemporary Studio Glass Movement Technical processes Neon Fused Cast Moulds Blowing Kiln worked Flame worked Laminated Photography 748.2 Neon sculpture Glass art Glass art -- History Glass artists Glass sculpture Glass fusing Glass blowing and working -- History
108	Der Einfluss wirksamer Compliance-Überprüfung mit Hilfe sicherer Hinweisgebersysteme auf die Unternehmenskultur / The Influence of Effective Compliance Monitoring by Secure Whistle-Blowing Systems on Corporate Culture Kasch, Ulf Christoph 27 July 2009 (has links) No description available. 000 Allgemeines, Wissenschaft LQ 013 LQ 014 LQ 064 LQ 195 LQJ 000 LQJ 012 LQJ 053 Economics and Management Science Compliance Whistleblowing Hinweisgebersysteme Unternehmenskultur Corporate Governance compliance whistle-blowing whistle-blowing systems corporate culture corporate governance 85.02 85.06 85.09 85.20
109	Process in glass art : a study of some technical and conceptual issues Hemp, Doreen 11 1900 (has links) Glass has been made and used for centuries but South African artists, isolated for the last three decades, are only now becoming aware of the potential of hot or warm glass as an art medium. In antiquity glass objects were created using various processes but the 'factory' tradition began with the discovery of the blowing iron in the first century AD. The invention of the tank furnace in the late 1950s revolutionised modem production, enabling individual artists to make glass in private studios without blowing teams. The research describes ancient.. glassmaking processes and indicates how they have been explored, adapted and used by contemporary artists world wide, challenging craft orientated paradigms, and proving that glass is a viable and important sculpture medium. The practical research demonstrates the application of many processes and relates technical issues to sculptural concepts which are realized through the physical and material properties of glass. / Art History, Visual Arts and Musicology / M.A. (Fine Art) Glass - ancient history Modern and contemporary Studio Glass Movement Technical processes Neon Fused Cast Moulds Blowing Kiln worked Flame worked Laminated Photography 748.2 Neon sculpture Glass art Glass art -- History Glass artists Glass sculpture Glass fusing Glass blowing and working -- History
110	The influence of individual, team and contextual factors on external auditors' whistle-blowing intentions in Barbados : towards the development of a conceptual model of external auditors' whistle-blowing intentions Alleyne, Philmore Alvin January 2010 (has links) Following the collapse of Arthur Andersen in the Enron debacle, whistle-blowing within audit firms has taken on greater importance. Given the profession's requirements to be confidential, independent and to act in the public's interest, there is a need for a model that addresses auditors' whistle-blowing intentions. This thesis presents a conceptual model on whistle-blowing intentions among external auditors, where individual-led antecedents influence whistle-blowing intentions, but are moderated by isomorphic and issue-specific factors. Survey questionnaires were administered to 226 external auditors, and 18 individual interviews as well as 2 focus groups were conducted in Barbados. Results indicated that individual antecedents (attitudes, perceived behavioural control, independence commitment, personal responsibility for reporting, and personal cost of reporting) were significantly related to internal whistle-blowing, but only perceived behavioural control was significantly related to external whistle-blowing. Partial support was found for the moderating effects of perceived organizational support, moral intensity, team norms and group cohesion on the relationships between the majority of the independent variables (attitudes, perceived behavioural control, independence commitment, personal responsibility for reporting and personal cost of reporting) and internal whistle-blowing. However, partial support was found for the moderating effects of perceived organizational support, moral intensity, team norms iii and group cohesion on the relationships between fewer independent variables and external whistle-blowing. Overall, respondents preferred anonymous internal channels of reporting, and showed a general reluctance to report externally. The presence of an open-door policy, ethics partners, hotline, on-going training and clearly defined policies could encourage whistle-blowing. Further implications for research and practice are discussed. 338.6041

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