Dr. Jens Nikolas Wood

Academic degrees
Dr.
 
Full Name
Wood, Jens Nikolas
 
Credit Name
Dr. Jens Nikolas Wood
 
Main Affiliation
 

Publications

Results 1-15 of 15 (Search time: 0.008 seconds).

Issue DateTitleAuthor(s) 
12017Untersuchungen zur Fluid-Struktur-Interaktion einer luftgestützten Halbkugelmembran unter turbulenter ZuströmungWood, Jens Nikolas ; Breuer, Michael 
22015Towards FSI: LDA-Investigations of the Flow past a Hemisphere in an Artificially Generated Turbulent Boundary Layer; LDA-Messungen zur Umströmung einer starren Halbkugel in einer künstlich erzeugten Grenzschicht als Grundlage für Untersuchungen zur Fluid-Struktur InteraktionWood, Jens Nikolas ; Breuer, Michael 
32018Particle-Image Velocimetry and the Assignment ProblemButz, Franz-Friedrich; Fügenschuh, Armin ; Wood, Jens Nikolas ; Breuer, Michael 
42018Numerical studies on the instantaneous fluid–structure interaction of an air-inflated flexible membrane in turbulent flowDe Nayer, Guillaume ; Apostolatos, Andreas; Wood, Jens Nikolas ; Bletzinger, Kai Uwe; Wüchner, Roland; Breuer, Michael 
52020Numerical investigations on the dynamic behavior of a 2-DOF airfoil in the transitional Re number regime based on fully coupled simulations relying on an eddy-resolving techniqueDe Nayer, Guillaume ; Breuer, Michael ; Wood, Jens Nikolas 
62020FSI Investigations on a Flexible Air-Inflated Thin-Walled Structure: An LES Study with Experimental ValidationDe Nayer, Guillaume ; Wood, Jens Nikolas ; Apostolatos, Andreas; Breuer, Michael 
7Open Access2019Experimentelle Untersuchungen zur Fluid-Struktur-Interaktion einer deformierbaren Membran-Halbkugel in turbulenter StrömungWood, Jens Nikolas 
82018Experimental studies on the instantaneous fluidstructure interaction of an air-inflated flexible membrane in turbulent flowWood, Jens Nikolas ; Breuer, Michael ; De Nayer, Guillaume 
92020Experimental investigations on the dynamic behavior of a 2-DOF airfoil in the transitional Re number regime based on digital-image correlation measurementsWood, Jens Nikolas ; Breuer, Michael ; De Nayer, Guillaume 
101-Jul-2016Experimental Investigation and Large-Eddy Simulation of the Turbulent Flow past a Smooth and Rigid HemisphereWood, Jens Nikolas ; De Nayer, Guillaume ; Schmidt, Stephan ; Breuer, Michael 
112018Enhanced injection method for synthetically generated turbulence within the flow domain of eddy-resolving simulationsDe Nayer, Guillaume ; Schmidt, Stephan ; Wood, Jens Nikolas ; Breuer, Michael 
122018Coupled Simulations Involving Lightweight Structures within Turbulent Flows: A Complementary Experimental and Numerical ApplicationWüchner, Roland; De Nayer, Guillaume ; Wood, Jens Nikolas ; Breuer, Michael ; Apostolatos, Andreas
132016Complementary Experimental-Numerical Investigation of the Flowpast a Rigid and a Flexible Hemisphere in Turbulent Flow : Part I: Experimental MeasurementsWood, Jens Nikolas ; Breuer, Michael 
142016Complementary Experimental-Numerical Investigation of the Flow past a Rigid and a Flexible Hemisphere in Turbulent Flow : Part II: Numerical SimulationsBreuer, Michael ; Wood, Jens Nikolas ; De Nayer, Guillaume 
15Sep-2022A novel approach for artificially generating horizontal wind gusts based on a movable plate: The PaddleWood, Jens Nikolas ; Breuer, Michael ; Neumann, Torben