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Researcher
Wim De Roeck
- Disciplines:Other engineering and technology
Affiliations
- Mecha(tro)nic System Dynamics (LMSD) (Division)
Member
From1 Aug 2020 → Today - Manufacturing Processes and Systems (MaPS) (Division)
Member
From1 Aug 2020 → 31 Jul 2020 - Mechanical Engineering Technology, Group T Leuven Campus (Technology cluster)
Member
From1 Oct 2013 → 31 Jul 2020 - Production Engineering, Machine Design and Automation (PMA) Section (Division)
Member
From1 Sep 2002 → 30 Sep 2013
Projects
1 - 10 of 17
- A tomographic Particle Image Velocimetry (PIV) system for velocity measurement in fluid flows.From1 May 2022 → TodayFunding: FWO Medium Size Research Infrastructure
- Experimental and numerical analysis of buffeting phenomena and its influence onFrom16 Apr 2021 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Experimental model based estimation of inputs and parameters for vibro-acoustic system-level predictionsFrom1 Apr 2021 → 31 Mar 2024Funding: IOF - technology validation in lab
- Stability and Sensitivity Methods for Flow Control and Industrial DesignFrom1 Jan 2021 → TodayFunding: H2020-EU.1.3.- EXCELLEN SCIENCE - Marie Skłodowska-Curie actions
- Aeroacoustic design and optimization of residential HVAC systems using 1D modelling strategiesFrom6 Sep 2019 → 6 Sep 2023Funding: BOF - doctoral mandates
- Investigation of Ducted Fan Noise: from Data-driven Modelling of Wall Pressure Spectra to the Effects of Distorted InflowsFrom26 Feb 2019 → 6 Jun 2023Funding: Own budget, for example: patrimony, inscription fees, gifts
- Development of pass-by noise prediction models for road vehicles employing machine learningFrom23 Oct 2018 → 8 Jul 2022Funding: Own budget, for example: patrimony, inscription fees, gifts
- Aeroacoustic Feedback Phenomena in Side-Branch Helmholtz Resonators: a Numerical and Experimental AnalysisFrom24 Feb 2017 → 25 Aug 2022Funding: Own budget, for example: patrimony, inscription fees, gifts
- Stability and Sensitivity Methods for Industrial DesignFrom1 Jan 2016 → 31 Dec 2019Funding: H2020 - Skills and Career Development (Marie Skłodowska-Curie) actions
- Turbulent flow noise modeling for under- and upperbody load and transmission analysisFrom1 Jul 2015 → 30 Jun 2018Funding: IWT /VLAIO - Indirect financing by the government
Publications
1 - 10 of 84
- Experimental characterization of the impedance of (sub-)millimeter perforations with flow(2023)
Authors: Simon Vandemaele, Hervé Denayer, Wim De Roeck, Wim Desmet
Pages: 5793 - 5800Number of pages: 8 - Comparison of Linearized Navier-Stokes Formulations Applied to a Whistling Helmholtz Resonator(2023)
Authors: Luigi Criscuolo, Hervé Denayer, Wim De Roeck, Wim Desmet
Number of pages: 13 - Investigation of Ducted Fan Noise: from Data-driven Modelling of Wall Pressure Spectra to the Effects of Distorted Inflows(2023)
Authors: Wim Desmet, Wim De Roeck
- Simulation of the flow-acoustic-structural interaction in flow ducts using a partitioned approach in the time domain(2022)
Authors: Jurgen Kersschot, Hervé Denayer, Wim De Roeck, Wim Desmet
Pages: 1 - 11Number of pages: 11 - Mapping schemes between non matching meshes for aerodynamic and acoustic forces acting on a flexible duct wall(2022)
Authors: Solmaz Khoshavaz, Hervé Denayer, Wim De Roeck
Pages: 342 - 353Number of pages: 12 - Aeroacoustic Feedback Phenomena in Side-Branch Helmholtz Resonators: a Numerical and Experimental Analysis(2022)
Authors: Luigi Criscuolo, Wim Desmet, Wim De Roeck, Hervé Denayer
- Development of pass-by noise prediction models for road vehicles employing machine learning(2022)
Authors: Xue Zhang, Wim De Roeck, Wim Desmet
- Aeroacoustic instability analysis of a Helmholtz resonator through high-order unsteady Reynolds-Averaged Navier–Stokes simulations(2022)
Authors: Luigi Criscuolo, Hervé Denayer, Wim De Roeck, Wim Desmet
Pages: 3593 - 3602 - Characterisation of the aeroacoustic properties of ventilation extraction and supply valves based on an active two-port formulation(2022)
Authors: Olivier Van Dessel, Hervé Denayer, Wim De Roeck
Number of pages: 19 - Trailing-Edge Noise Prediction by Solving Helmholtz Equation with Stochastic Source Term(2022)
Authors: Wim De Roeck, Wim Desmet
Pages: 1797 - 1816