Dr Duc Ngo-Cong
|Section||Centre for Agricultural Engineering (Research)|
|Phone||+61 7 4631 2521|
|Qualifications||BEng HoChiMinhUT , MEng Gyeongsang National University , PhD USQ|
Fields of Research (FoR)
Numerical and Computational Mathematics
Aerospace Engineering not elsewhere classified
Mechanical Engineering not elsewhere classified
Interdisciplinary Engineering not elsewhere classified
Computational modelling of fluid and solid mechanics, fluid-structure interaction, Radial Basis Function-based methods, Smoothed Particle Hydrodynamics method, aerodynamics, surface and subsurface flows, crop biophysical modelling and integrated system modelling
USQ Research affiliations
Institute for Advanced Engineering and Space Sciences (IAESS)
Research most recent
D. Ngo-Cong and Anh V. Nguyen (2019). “Examining and extending the concept of machine acceleration used in modelling the bubble-particle detachment in flotation,” Minerals Engineering, 134: 77-86.
D. Ngo-Cong, Anh V. Nguyen and T. Tran-Cong (2018). “Isotropic turbulence surpasses gravity in affecting bubble-particle collision efficiency in flotation,” Minerals Engineering, 122: 165-175.
D. Ngo-Cong, C.M.T. Tien, T. Nguyen-Ky, D.-A. An-Vo, N. Mai-Duy, D.V. Strunin and T. Tran-Cong (2017). “A generalised finite difference scheme based on compact integrated radial basis function for flow in heterogeneous soils,” International Journal for Numerical Methods in Fluids, 85 (7): 404-429.
Research most notable
F. J. Mohammed, D. Ngo-Cong, D. V. Strunin, N. Mai-Duy and T. Tran-Cong (2014). “Modelling dispersion for laminar and turbulent flows in an open channel based on centre manifolds using 1D-IRBFN method,” Applied Mathematical Modelling, 38: 3672-3691.
D. Ngo-Cong, N. Mai-Duy, W. Karunasena and T. Tran-Cong (2012). “A numerical procedure based on 1D-IRBFN and local MLS-1D-IRBFN methods for fluid-structure interaction analysis,” CMES: Computer Modeling in Engineering & Science, 83 (5): 459-498.
D. Ngo-Cong, N. Mai-Duy, W. Karunasena and T. Tran-Cong (2012). “Local Moving Least Square - One-Dimensional IRBFN Technique for Incompressible Viscous Flows,” International Journal for Numerical Methods in Fluids, 70: 1443-1474.
D. Ngo-Cong, N. Mai-Duy, W. Karunasena and T. Tran-Cong (2011). “Free Vibration Analysis of Laminated Composite Plates based on FSDT using One-Dimensional IRBFN Method,” Computers and Structures, 89: 1-13.
Publications in ePrints
Ngo-Cong, Duc and Nguyen, Anh V. (2020) Extending the concept of machine acceleration used to model the bubble-particle detachment in flotation. Part 2 – Machine acceleration of solid particles in water. Minerals Engineering, 146 (Article 106134). ISSN 0892-6875
Ngo-Cong, Duc and Mai-Duy, Nam and Antille, Diogenes L. and van Genuchten, Martinus Th. (2019) A control volume scheme using compact integrated radial basis function stencils for solving the Richards equation. Journal of Hydrology, 580. pp. 1-10. ISSN 0022-1694
Ngo-Cong, Duc and Nguyen, Anh V. (2019) Examining and extending the concept of machine acceleration used in modelling the bubble-particle detachment in flotation. Minerals Engineering, 134. pp. 77-86. ISSN 0892-6875
Mai-Duy, Nam and Dalal, Deepak and Le, Thi Thuy Van and Ngo-Cong, Duc and Tran-Cong, Thanh (2018) A symmetric integrated radial basis function method for solving differential equations. Numerical Methods for Partial Differential Equations, 34 (3). pp. 959-981. ISSN 0749-159X
Ngo-Cong, Duc and Nguyen, Anh V. and Tran-Cong, Thanh (2018) Isotropic turbulence surpasses gravity in affecting bubble-particle collision interaction in flotation. Minerals Engineering, 122. pp. 165-175. ISSN 0892-6875