Követés
David Graham
David Graham
E-mail megerősítve itt: plymouth.ac.uk
Cím
Hivatkozott rá
Hivatkozott rá
Év
Simulation of wave overtopping by an incompressible SPH model
S Shao, C Ji, DI Graham, DE Reeve, PW James, AJ Chadwick
Coastal engineering 53 (9), 723-735, 2006
2222006
Turbulent dispersion of particles using eddy interaction models
DI Graham, PW James
International Journal of Multiphase Flow 22 (1), 157-175, 1996
1911996
Settling of undissolved zirconium particles in pure magnesium melts
M Qian, L Zheng, D Graham, MT Frost, DH StJohn
Journal of Light Metals 1 (3), 157-165, 2001
1092001
Comparison of incompressible and weakly-compressible SPH models for free-surface water flows
JP Hughes, DI Graham
Journal of Hydraulic Research 48 (sup1), 105-117, 2010
1052010
A level set immersed boundary method for water entry and exit
Y Zhang, Q Zou, D Greaves, D Reeve, A Hunt-Raby, D Graham, P James, ...
Communications in Computational Physics 8 (2), 265-288, 2010
892010
Settling and transport of spherical particles in power-law fluids at finite Reynolds number
DI Graham, TER Jones
Journal of non-newtonian fluid mechanics 54, 465-488, 1994
841994
Measurement and prediction of surface shear stress in annular flume
DI Graham, PW James, TER Jones, JM Davies, EA Delo
Journal of Hydraulic Engineering 118 (9), 1270-1286, 1992
701992
A blind comparative study of focused wave interactions with floating structures (CCP-WSI Blind Test Series 3)
E Ransley, S Yan, S Brown, M Hann, D Graham, C Windt, P Schmitt, ...
International Journal of Offshore and Polar Engineering 30 (01), 1-10, 2020
672020
A blind comparative study of focused wave interactions with a fixed FPSO-like structure (CCP-WSI Blind Test Series 1)
E Ransley, S Yan, SA Brown, T Mai, D Graham, Q Ma, PH Musiedlak, ...
International Journal of Offshore and Polar Engineering 29 (02), 113-127, 2019
642019
Alloying of pure magnesium with Mg 33.3 wt-% Zr master alloy
M Qian, D Graham, L Zheng, DH StJohn, MT Frost
Materials science and technology 19 (2), 156-162, 2003
572003
How many particles for my Lagrangian simulations?
DI Graham, RA Moyeed
Powder Technology 125 (2-3), 179-186, 2002
572002
An improved eddy interaction model for numerical simulation of turbulent particle dispersion
DI Graham
471996
Accuracy of SPH viscous flow models
DI Graham, JP Hughes
International journal for numerical methods in fluids 56 (8), 1261-1269, 2008
382008
Improved eddy interaction models with random length and time scales
DI Graham
International journal of multiphase flow 24 (2), 335-345, 1998
381998
On the inertia effect in eddy interaction models
DI Graham
International journal of multiphase flow 22 (1), 177-184, 1996
341996
Visualization and analysis of SPH data
J Biddiscombe, D Graham, P Maruzewski
Ercoftac Bulletin 76, 9-12, 2008
282008
An exact algorithm for small-cardinality constrained portfolio optimisation
DI Graham, MJ Craven
Journal of the Operational Research Society 72 (6), 1415-1431, 2021
182021
Assessing moment-based boundary conditions for the lattice Boltzmann equation: A study of dipole-wall collisions
S Mohammed, D Graham, T Reis
Computers & Fluids 176, 79-96, 2018
182018
Hydrodynamics of onshore oscillating water column devices: A numerical study using smoothed particle hydrodynamics
G Zhu, D Graham, S Zheng, J Hughes, D Greaves
Ocean Engineering 218, 108226, 2020
172020
Turbulence attenuation by small particles in simple shear flows
DI Graham
J. Fluids Eng. 122 (1), 134-137, 2000
172000
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Cikkek 1–20