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Doctoral Thesis Recital (conducting)Tembras, Daniel 19 February 2013 (has links)
The tender land suite / Aaron Copland -- Dionysiaques, op.62 / Florent Schmitt. / text
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Doctoral Thesis Recital (conducting) lectureTembras, Daniel 19 February 2013 (has links)
"The tender land suite (for wind ensemble and voices); a transcription by Daniel Tembras." / text
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Doctoral thesis recital (wind conducting)Hartenberger, Jaclyn 05 March 2014 (has links)
Symphony in B-flat / Paul Hindemith -- Symphonic metamorphosis of themes by Carl Maria von Weber / Paul Hindemith. / text
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Doctoral thesis recital (lecture) wind conductingHartenberger, Jaclyn 05 March 2014 (has links)
"Symphonic metamorphosis of themes by Carl Maria von Weber: A revised wind ensemble transcription of Paul Hindemith's work originally transcribed by Keith Wilson" -- Symphonic metamorphosis of themes by Carl Maria von Weber / Paul Hindemith. / text
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Doctoral thesis recital (lecture) conductingBushman, Catharine 25 April 2014 (has links)
Lecture: "Hymns of praise for Debussy: A comparison of the 1920 and 1947 versions of Igor Stravinsky's Symphonies of wind instruments." / text
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Doctoral thesis recital (lecture) conductingKelly, Ryan 06 May 2014 (has links)
Lecture: "Kevin Puts' Network: A transcription for wind ensemble." -- Network / Kevin Puts. / text
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Radar signature characterization from wind turbine scatteringNaqvi, Aale R. 25 June 2014 (has links)
The growth in the number of wind farms has raised significant concerns in the radar community due to their potential interference on radar systems. The motion of the turbine blades creates unwanted Doppler clutter that can interfere in the tracking of moving targets. Large turbine structures can also produce electromagnetic shadows that may make observing objects behind a wind farm difficult. Detailed characterization of the clutter is the first step towards effective mitigation techniques. The goal of this dissertation research is to gain a better understanding of the dynamic radar signatures resulting from scattering by wind turbines. First, the scattering characteristics of turbines in the presence of ground surface are studied. Image theory in conjunction with a shooting-and-bouncing ray code, Ahilo, is used to carry out the dynamic signature simulation. The observed features in the simulation are corroborated with laboratory model measurements. Second, the effects of higher order motions of a turbine undergoing rotation on the radar signatures are investigated and characterized. Mathematical models for the motions are proposed and used to simulate the joint time-frequency and inverse synthetic aperture radar characteristics of the turbine undergoing these motions. The motions are studied for an isolated turbine as well as for a turbine rotating above a ground. Selected motions are corroborated by laboratory model measurements. Next, a method to remove the dynamic clutter produced by wind turbines is presented. A physics-based basis is constructed to model the radar backscattering from a wind turbine. This basis is used in conjunction with the matching pursuit algorithm to iteratively remove the Doppler clutter due to wind turbines. The algorithm is tested using radar return generated using Ahilo. Finally, radar features of wind turbines are simulated and studied in the HF (high frequency) band. The features are presented in the range-Doppler plane for single as well as arrays of turbines. Doppler aliasing due to the limited pulse repetition frequency of HF radars is examined. Shadowing characteristics of arrays of turbines are simulated and analyzed. Electromagnetic modeling details including effects of thin-wire modeling, non-conducting turbine components, and the presence of a conducting ground surface are discussed. / text
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Numerical simulation of local climatic impact of an operating wind turbineYang, Yuan, 杨源 January 2012 (has links)
Wind energy is commonly considered to be a clean and environmentally friendly renewable energy resource, as they do not pollute our atmosphere with greenhouse gas, nor do they cause any radioactive problems compared to nuclear energy. However, there are still some environmental impacts due to the installation and operation of the wind turbines that cannot be ignored, such as noise, visual and climatic impact. Especially, the observed local climate change in some wind farm areas has attracted general concern in recent years. Experts suspected that long time operation of wind turbines in an area can cause changes to local precipitation, evaporation of the water on earth surface, and even affect the frequency of drought happening. Nevertheless, we still cannot figure out whether these changes would be caused by wind turbines or not. The target of this study is to investigate the potential local impact of an operating wind turbine by numerical simulation.
Because of the big geometric size of commercial wind turbines, experimental method is very limited in this type of study. Numerical simulation using CFD is considered to be a suitable approach and commercial software “FLUENT” is utilized in this study. Firstly, an accurate 3-D numerical wind turbine model was established and the frozen blade method was used to realize the rotation of the wind blades. Before further simulation, a wind-tunnel test has been undertaken by using a scaled physical wind turbine model for validation purpose. The experimental results show good agreement with those predicted by the numerical simulation. This suggested that the computation results were validated and the computational model can be used for further study.
In this research, three wind turbine cases, with different typical ambient temperature and surface temperature, were simulated. Characters like wake structure, turbulence intensity and local temperature change was collected and analyzed in each simulated case. The results show that the operating wind turbine can bring obvious velocity deficit in the wake and a strong turbulence intensity enhancement was observed at the top tip because of the rotation. Also, local temperature change was found in the near wake region. The investigation of the local impact of the operating wind turbine is very significant. This study provides a valuable insight into the potential impacts of wind farms on local meteorology, which is rarely studied before. Meanwhile, a more comprehensive study on the effect of a wind farm on the environment is highly recommended. / published_or_final_version / Mechanical Engineering / Master / Master of Philosophy
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Doctoral thesis recital (conducting)Sosnowchik, Marc 29 January 2015 (has links)
Adagio para orquesta de instrumentos de viento / Joaquin Rodrigo -- Overture to Candide / Leonard Bernstein -- Visionplace of souls / Kevin Walczyk -- Rocky Point holiday / Ron Nelson -- Passacaglia and Thema fugatum in C minor, BWV 582 / Johann Sebastian Bach -- Give us this day: short symphony for wind ensemble / David Maslanka. / text
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Doctoral thesis recital (lecture) conductingSosnowchik, Marc 28 May 2015 (has links)
Passacaglia and thema fugatum in C minor, BWV 582 / Johann Sebastian Bach, transcribed for winds by Leopold Stokowski. A modern edition for wind ensemble by Marc Sosnowchik. / text
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