The surface gradient method for the treatment of source terms in the shallow-water equations JG Zhou, DM Causon, CG Mingham, DM Ingram Journal of Computational physics 168 (1), 1-25, 2001 | 736 | 2001 |
On the choice of wavespeeds for the HLLC Riemann solver P Batten, N Clarke, C Lambert, DM Causon SIAM Journal on Scientific Computing 18 (6), 1553-1570, 1997 | 661 | 1997 |
Numerical simulation of wave overtopping of coastal structures using the non-linear shallow water equations K Hu, CG Mingham, DM Causon Coastal engineering 41 (4), 433-465, 2000 | 352 | 2000 |
High-resolution finite-volume method for shallow water flows CG Mingham, DM Causon Journal of hydraulic engineering 124 (6), 605-614, 1998 | 314 | 1998 |
Developments in Cartesian cut cell methods DM Ingram, DM Causon, CG Mingham Mathematics and Computers in Simulation 61 (3-6), 561-572, 2003 | 306 | 2003 |
Introductory finite difference methods for PDEs DM Causon, CG Mingham Bookboon, 2010 | 209 | 2010 |
Calculation of shallow water flows using a Cartesian cut cell approach DM Causon, DM Ingram, CG Mingham, G Yang, RV Pearson Advances in water resources 23 (5), 545-562, 2000 | 197 | 2000 |
On Riemann solvers for compressible liquids MJ Ivings, DM Causon, EF Toro International Journal for Numerical Methods in Fluids 28 (3), 395-418, 1998 | 164 | 1998 |
Numerical solutions of the shallow water equations with discontinuous bed topography JG Zhou, DM Causon, DM Ingram, CG Mingham International journal for numerical methods in fluids 38 (8), 769-788, 2002 | 157 | 2002 |
Numerical prediction of dam-break flows in general geometries with complex bed topography JG Zhou, DM Causon, CG Mingham, DM Ingram Journal of hydraulic engineering 130, 332, 2004 | 152 | 2004 |
A Cartesian cut cell method for compressible flows part A: Static body problems G Yang, DM Causon, DM Ingram, R Saunders, P Battent The Aeronautical Journal 101 (1002), 47-56, 1997 | 144 | 1997 |
A free-surface capturing method for two fluid flows with moving bodies L Qian, DM Causon, CG Mingham, DM Ingram Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2006 | 119 | 2006 |
Positively conservative high‐resolution convection schemes for unstructured elements P Batten, C Lambert, DM Causon International Journal for Numerical Methods in Engineering 39 (11), 1821-1838, 1996 | 119 | 1996 |
A Cartesian cut cell method for shallow water flows with moving boundaries DM Causon, DM Ingram, CG Mingham Advances in water Resources 24 (8), 899-911, 2001 | 112 | 2001 |
Calculation of compressible flows about complex moving geometries using a three‐dimensional Cartesian cut cell method G Yang, DM Causon, DM Ingram International Journal for Numerical Methods in Fluids 33 (8), 1121-1151, 2000 | 106 | 2000 |
Application of an overset mesh based numerical wave tank for modelling realistic free-surface hydrodynamic problems H Chen, L Qian, Z Ma, W Bai, Y Li, D Causon, C Mingham Ocean Engineering 176, 97-117, 2019 | 96 | 2019 |
A bore‐capturing finite volume method for open‐channel flows K Hu, CG Mingham, DM Causon International Journal for Numerical Methods in Fluids 28 (8), 1241-1261, 1998 | 92 | 1998 |
A multi-region coupling scheme for compressible and incompressible flow solvers for two-phase flow in a numerical wave tank PJM Ferrer, DM Causon, L Qian, CG Mingham, ZH Ma Computers & Fluids 125, 116-129, 2016 | 89 | 2016 |
A cartesian cut cell method for compressible flows Part B: moving body problems G Yang, DM Causon, DM Ingram, R Saunders, P Battent The Aeronautical Journal 101 (1002), 57-65, 1997 | 82 | 1997 |
Advances in calculation methods for supercritical flow in spillway channels DM Causon, CG Mingham, DM Ingram Journal of Hydraulic Engineering 125 (10), 1039-1050, 1999 | 75 | 1999 |