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1.
A 2D CFD Simulation for Wind Turbine Wakes Using a Porous Element
by Acker, Matthew R., M.S.  Northern Arizona University. 2018: 133 pages; 10791441.
2.
Exploring the Role of the Atmosphere on Wind-Energy Production: From Turbine Wakes to Varability of Wind Speed
by Lee, Cheuk Yi Joseph, Ph.D.  University of Colorado at Boulder. 2018: 196 pages; 10790207.
3.
An Investigation into the Aerodynamics Surrounding Vertical-Axis Wind Turbines
by Parker, Colin M., Ph.D.  The George Washington University. 2018: 138 pages; 10687173.
4.
Wind farm wake prediction using CFD
by Wolton, Peter R., M.S.  University of Colorado at Boulder. 2008: 150 pages; 1456694.
6.
Model- and full-scale predictions of hydrokinetic turbulent wake, including model-scale validation
by Salunkhe, Sanchit, M.S.  Mississippi State University. 2016: 141 pages; 10243211.
7.
Numerical performance prediction for FAU's first generation ocean current turbine
by Vanrietvelde, Nicolas, M.S.  Florida Atlantic University. 2009: 133 pages; 1478428.
8.
Design and Fabrication of cm-scale Tesla Turbines
by Krishnan, Vedavalli Gomatam, Ph.D.  University of California, Berkeley. 2015: 147 pages; 3720613.
9.
Wind Speed Preview Measurement and Estimation for Feedforward Control of Wind Turbines
by Simley, Eric J., Ph.D.  University of Colorado at Boulder. 2015: 256 pages; 3721887.
10.
Unsteady measurement techniques for turbomachinery flows
by Jaffa, Nicholas Andrew, Ph.D.  University of Notre Dame. 2015: 172 pages; 3732212.
11.
Analysis of Aeroelastic Effects on the 3-Dimensional Interference of Wind-Turbine Rotors
by Rajan, Anurag, Ph.D.  Michigan Technological University. 2017: 144 pages; 10267754.
12.
Design of airborne wind turbine and computational fluid dynamics analysis
by Anbreen, Faiqa, M.S.  California State University, Long Beach. 2015: 60 pages; 1606691.
13.
Experimental Characterization of Wind Turbine Blade Aerodynamic Noise
by Ingemanson, Megan Lynn, M.S.  University of California, Davis. 2013: 50 pages; 1539643.
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Examining Critical Material Supply Chains Through a Bayesian Network Model
by Kling, Joseph A., D.Engr.  The George Washington University. 2018: 110 pages; 10928265.
20.
Model analysis of a mooring system for an ocean current turbine testing platform
by Cribbs, Allison Rose, M.S.  Florida Atlantic University. 2010: 162 pages; 1489892.
21.
Surface wind speed distributions: Implications for climate and wind power
by Capps, Scott Blair, Ph.D.  University of California, Irvine. 2009: 136 pages; 3380326.
22.
A Fuzzy Logic-Based Fault Tolerant Control Approach for Wind Turbines
by Kanumalla, Neha, M.S.  University of Louisiana at Lafayette. 2015: 99 pages; 10002411.
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Development of a nonlinear wind turbine simulator for linear parameter-varying control design
by Xue, Xiangming, M.S.  California State University, Long Beach. 2015: 88 pages; 1603750.
26.
A hydrokinetic resource assessment of the Florida Current
by Smentek-Duerr, Alana E., Ph.D.  Florida Atlantic University. 2012: 236 pages; 3530686.
27.
Analysis and optimization of a solar thermal power generation and desalination system using a novel approach
by Torres, Leovigildo, M.S.  California State University, Long Beach. 2015: 87 pages; 1604880.
28.
Prediction of aerodynamic noise generated by wind turbine blades
by Giridhar, Rohith, M.S.  University of Kansas. 2016: 101 pages; 10112683.
30.
Lifetime prediction modeling of airfoils for advanced power generation
by Karaivanov, Ventzislav Gueorguiev, Ph.D.  University of Pittsburgh. 2009: 129 pages; 3384974.
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