Wind turbine airfoil
" Energy recovery ducted turbine (ERDT) system for chimney flue gases - A CFD based analysis to study the effect of number of blade and diffuser angle," " Analysis and optimization of ducted wind turbines,"Įnergy, Elsevier, vol. Khamlaj, Tariq Abdulsalam & Rumpfkeil, Markus Peer, 2018." Power Control of Direct Interconnection Technique for Airborne Wind Energy Systems,"Įnergies, MDPI, vol. Mahdi Ebrahimi Salari & Joseph Coleman & Daniel Toal, 2018." Configuration optimization and global sensitivity analysis of Ground-Gen and Fly-Gen Airborne Wind Energy Systems," Trevisi, Filippo & McWilliam, Michael & Gaunaa, Mac, 2021." Cascade Control of the Ground Station Module of an Airborne Wind Energy System,"Įnergies, MDPI, vol. " A novel design of nozzle-diffuser to enhance performance of INVELOX wind turbine," " Unified engineering models for the performance and cost of Ground-Gen and Fly-Gen crosswind Airborne Wind Energy Systems,"
WIND TURBINE AIRFOIL MAC
Trevisi, Filippo & Gaunaa, Mac & McWilliam, Michael, 2020." A robust methodology for the design optimization of diffuser augmented wind turbine shrouds," Renewable and Sustainable Energy Reviews, Elsevier, vol. " Systematic review of diffuser-augmented horizontal-axis turbines," " Diffuser augmented wind turbines: Review and assessment of theoretical models," " Mathematical modeling of a horizontal axis shrouded wind turbine," & Tavakkoli Hashjin, Teymour & Ghobadian, Barat & Mahmoodi, Esmail, 2020. " Design and performance analysis of an airborne wind turbine for high-altitude energy harvesting," Ali, Qazi Shahzad & Kim, Man-Hoe, 2021.These are the items that most often cite the same works as this one and are cited by the same works as this one. 39(C), pages 748-764.įull references (including those not matched with items on IDEAS) " Renewable energy resources: Current status, future prospects and their enabling technology," Ellabban, Omar & Abu-Rub, Haitham & Blaabjerg, Frede, 2014." Comparing Patent and Scientific Literature in Airborne Wind Energy," Anny Key de Souza Mendonça & Caroline Rodrigues Vaz & Álvaro Guillermo Rojas Lezana & Cristiane Alves Anacleto & Edson Pacheco Paladini, 2017." Energy sector vulnerability to climate change: A review,"Įnergy, Elsevier, vol. Schaeffer, Roberto & Szklo, Alexandre Salem & Pereira de Lucena, André Frossard & Moreira Cesar Borba, Bruno Soares & Pupo Nogueira, Larissa Pinheiro & Fleming, Fernanda Pereira & Troccoli, Alberto &, 2012." Estimation of the mechanical energy output of the kite wind generator," " Airborne Wind Energy Systems: A review of the technologies," Cherubini, Antonello & Papini, Andrea & Vertechy, Rocco & Fontana, Marco, 2015." Computational analysis of shrouded wind turbine configurations using a 3-dimensional RANS solver," " Performance of buoyant shell horizontal axis wind turbine under fluctuating yaw angles,"Įnergy, Elsevier, vol. " Evaluation of climate change impacts on energy demand,"Įnergy, Elsevier, vol. Taseska, Verica & Markovska, Natasa & Callaway, John M., 2012." Upgrading a Shrouded Wind Turbine with a Self-Adaptive Flanged Diffuser,"Įnergies, MDPI, vol. " On the take-off of airborne wind energy systems based on rigid wings," " Effects of the duct thrust on the performance of ducted wind turbines,"Įnergy, Elsevier, vol. " Performance enhancement of solar collectors-A review," The comparison of wind turbine performance with optimized and original NACA-9415 shell configuration demonstrates that shell optimization results in a maximum power coefficient of 1.25 and power augmentation ratio of 2.1 compared to the Betz limit. The performance of the airborne wind turbine with the optimized shell configuration is assessed in terms of aerodynamic coefficients including shell thrust coefficient, shell back pressure coefficient, turbine power coefficient and power augmentation ratio. The 3D steady-state analysis is performed on the optimized shell geometry with NREL-IV rotor using Reynolds Averaged Navier-Stokes (RANS) equation along with k−ωSST turbulence model. An integrated code, based on a genetic algorithm, is developed to parametrize the asymmetric airfoil NACA-9415, analyse its aerodynamics and optimize the lift of the airfoil. The present manuscript proposes an aerodynamically optimized airfoil-based-shell for performance enhancement of the buoyant airborne turbine system.