Now showing items 1-14 of 14

    Issue DateTitleAuthor(s)
    11 April 2019Analysing greenhouse ventilation using Computational Fluid Dynamics (CFD)  Akrami, M; Javadi, A; Hassanein, M; et al.
    30 August 2019CFD simulation of an industrial spiral refrigeration system  Khenien, A; Benattayallah, A; Tabor, G
    1 December 2013Computational fluid dynamics of vortex flow controls at low flow rates  Queguineur, G; Jarman, D; Paterson, E; et al.
    22 September 2018Experimental study on scour at a sharp-nose bridge pier with debris blockage (article)  Ebrahimi, M; Kripakaran, P; Prodanović, DM; et al.
    25 April 2018Experimental study on scour at a sharp-nose bridge pier with debris blockage (dataset)  Ebrahimi, M; Kripakaran, P; Prodanović, DM; et al.
    4 August 2015Explicit calculation of natural aeration using a Volume-of-Fluid model  Lopes, P; Tabor, G; Carvalho, RF; et al.
    13 September 2016Hydrodynamic Effects of Debris Blockage and Scour on Masonry Bridges: Towards Experimental Modelling  Ebrahimi, M; Kripakaran, P; Djordjevic, S; et al.
    11 November 2019Impact of Rotor Misalignment Due to Platform Motions on Floating Offshore Wind Turbine Blade Loads  Smith, RE; Pillai, AC; Tabor, G; et al.
    7 February 2019Inhomogeneity and anisotropy in Eulerian-Eulerian near-wall modelling  Riella, M; Kahraman, R; Tabor, G
    25 August 2019Multiscale computational fluid dynamics  Drikakis, D; Frank, M; Tabor, G
    1 August 2017Scour and hydrodynamic effects of debris blockage at masonry bridges: insights from experimental and numerical modelling  Ebrahimi, M; Kahraman, R; Kripakaran, P; et al.
    1 June 2016Shape optimisation using Computational Fluid Dynamics and Evolutionary Algorithms  Daniels, SJ; Rahat, A; Tabor, G; et al.
    21 August 2018A Suite of Computationally Expensive Shape Optimisation Problems Using Computational Fluid Dynamics  Daniels, S; Rahat, AAM; Everson, R; et al.
    21 July 2011The use of CFD coupled with physical testing to develop a new range of vortex flow controls with attributes approaching the ideal flow control device  Jarman, DS; Tabor, G; Butler, D; et al.