His scientific interests lie mostly in Mechanics, Turbine, Airfoil, Computation and Rotor. His studies in Mechanics integrate themes in fields like Mechanical engineering, Wind speed, Actuator and Classical mechanics. Wen Zhong Shen interconnects Wake, Compressibility, Aerodynamics and Strouhal number in the investigation of issues within Classical mechanics.
As part of his studies on Turbine, Wen Zhong Shen frequently links adjacent subjects like Marine engineering. His biological study spans a wide range of topics, including NACA airfoil, Wind-turbine aerodynamics, Turbine blade and Angle of attack. His Rotor study integrates concerns from other disciplines, such as Large eddy simulation and Aerospace engineering, Wind tunnel.
The scientist’s investigation covers issues in Turbine, Mechanics, Marine engineering, Airfoil and Aerodynamics. His Turbine research is multidisciplinary, relying on both Turbulence, Wind speed, Wake and Actuator. His Mechanics research integrates issues from Computation, Turbine blade and Classical mechanics.
His Marine engineering research includes elements of Offshore wind power and Blade. The concepts of his Airfoil study are interwoven with issues in Acoustics, Angle of attack, Wind tunnel and Trailing edge. His Wind-turbine aerodynamics study, which is part of a larger body of work in Aerodynamics, is frequently linked to Momentum, bridging the gap between disciplines.
His primary areas of investigation include Turbine, Marine engineering, Wake, Environmental science and Mechanics. His work deals with themes such as Acoustics, Aerodynamics, Wind speed, Turbulence and Actuator, which intersect with Turbine. His Acoustics research incorporates themes from Airfoil and Wind shear.
His Airfoil study combines topics in areas such as Trailing edge, Large eddy simulation and Wind tunnel. The concepts of his Aerodynamics study are interwoven with issues in Inviscid flow and Rotor. His Marine engineering research is multidisciplinary, incorporating perspectives in Offshore wind power, Numerical analysis, Computational fluid dynamics and Wind turbine design.
His primary areas of study are Turbine, Wake, Aerodynamics, Terrain and Marine engineering. His Turbine research is under the purview of Aerospace engineering. His studies in Wake integrate themes in fields like Genetic algorithm and Flow.
His Aerodynamics research is included under the broader classification of Mechanics. His Marine engineering research incorporates themes from Offshore wind power, Wind turbine design, Computational fluid dynamics and Cost of electricity by source. His Noise study deals with Airfoil intersecting with Angle of attack.
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Numerical modeling of wind turbine wakes
Jens No̸rkær So̸rensen;Wen Zhong Shen.
Journal of Fluids Engineering-transactions of The Asme (2002)
Tip loss corrections for wind turbine computations
Wen Zhong Shen;Robert Mikkelsen;Jens Nørkær Sørensen;Christian Bak.
Wind Energy (2005)
Analysis of wake states by a full‐field actuator disc model
J. N. Sørensen;W. Z. Shen;X. Munduate.
Wind Energy (1998)
Shape Optimization of Wind Turbine Blades
Wang Xudong;Wen Zhong Shen;Wei Jun Zhu;Jens Nørkær Sørensen.
Wind Energy (2009)
The Actuator Surface Model: A New Navier-Stokes Based Model for Rotor Computations
Wen Zhong Shen;Jian Hui Zhang;Jens Nørkøøøøør Sorensen.
Journal of Solar Energy Engineering-transactions of The Asme (2009)
Improved Rhie-Chow Interpolation for Unsteady Flow Computations
Wen Zhong Shen;Jess A. Michelsen;Jens Nørkær Sørensen.
AIAA Journal (2001)
Final report of IEA Task 29, Mexnext (Phase 1): Analysis of Mexico wind tunnel measurements
J.G. Schepers;H. Madsen;T. Lutz;K. Boorsma.
, 290 p. (2012)
Solving the wind farm layout optimization problem using random search algorithm
Ju Feng;Wen Zhong Shen.
Renewable Energy (2015)
Comment on the Aeroacoustic Formulation of Hardin and Pope
Wen Zhong Shen;Jens Norkaer Sorensen.
AIAA Journal (1999)
Aeroacoustic Modelling of Low-Speed Flows
Wen Zhong Shen;Jens Nørkær Sørensen.
Theoretical and Computational Fluid Dynamics (1999)
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