Items where Author is "Halliday, I."

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Number of items: 35.

Article

HALLIDAY, I., ATHERTON, M., CARE, C., COLLINS, M. W., EVANS, D., EVANS, P. C., HOSE, D. R., KHIR, A. W., KÖNIG, C. S., KRAMS, R., LISHCHUK, S. and SPENCER, T. J. (2011). Multi-scale interaction of particulate flow and the artery wall. Medical Engineering and Physics, 33 (7), 840-848. [Article]

LISHCHUK, S. V. and HALLIDAY, I. (2009). Effective surface viscosities of a particle-laden fluid interface. Physical review E. Statistical, nonlinear and soft matter physics, 80 (1), 016306. [Article]

HALLIDAY, I., SPENCER, T. J. and CARE, C. M. (2009). Validation of multicomponent lattice Boltzmann equation simulations using theoretical calculations of immiscible drop shape. Physical review E. Statistical, nonlinear and soft matter physics, 79 (1). [Article]

LAWFORD, P. V., VENTIKOS, Y., KHIR, A. W., ATHERTON, M., EVANS, D., HOSE, D. R., CARE, C. M., WATTON, P. N., HALLIDAY, I., WALKER, D. C., HOLLIS, A. P. and COLLINS, M. W. (2008). Modelling the interaction of haemodynamics and the artery wall: Current status and future prospects. Biomedicine and pharmacotherapy, 62 (8), 530-535. [Article]

DUPIN, M. M., HALLIDAY, I., CARE, C. M. and MUNN, L. L. (2008). Efficiency oriented, hybrid approach for modelling deformable particles in three dimensions. Progress in Computational Fluid Dynamics, An International Journal (PCFD), 8 (1-4), 109-120. [Article]

DUPIN, M. M., HALLIDAY, I., CARE, C. M. and MUNN, L. L. (2008). Lattice Boltzmann modelling of blood cell dynamics. International Journal of Computational Fluid Dynamics, 22 (7), 481-492. [Article]

HOLLIS, A. P., HALLIDAY, I. and CARE, C. M. (2008). An accurate and versatile lattice closure scheme for lattice Boltzmann equation fluids under external forces. Journal of computational physics, 227 (17), 8065-8082. [Article]

HAMMOND, L. A., HALLIDAY, I., CARE, C. M. and STEVENS, A. (2007). Lattice boltzmann equation calculation of internal, pressure-driven turbulent flow. Journal of physics A-mathematical and general, 35 (47), 9945-9955. [Article]

HOLLIS, A. P., HALLIDAY, I. and LAW, R. (2007). Kinematic condition for multicomponent lattice Boltzmann simulation. Physical Review E (PRE), 76 (2 Part). [Article]

HALLIDAY, I., HOLLIS, A. P. and CARE, C. M. (2007). Lattice Boltzmann algorithm for continuum multicomponent flow. Physical Review E (PRE), 76 (2 Part). [Article]

DUPIN, M. M., HALLIDAY, I., CARE, C. M., ALBOUL, L. and MUNN, L. L. (2007). Modeling the flow of dense suspensions of deformable particles in three dimensions. Physical review E. Statistical, nonlinear and soft matter physics, 75. [Article]

HOLLIS, A., HALLIDAY, I. and CARE, C. M. (2006). Enhanced, mass-conserving closure scheme for lattice boltzmann equation hydrodynamics. Journal of physics A-mathematical and general, 39 (33), 10589-10601. [Article]

LISHCHUK, S. V., HALLIDAY, I. and CARE, C. M. (2006). Shear viscosity of bulk suspensions at low reynolds number with three-dimensional lattice boltzmann method. Physical review E, 74 (1), 017701. [Article]

HALLIDAY, I., LAW, R., CARE, C. and HOLLIS, A. (2006). Improved simulation of drop dynamics in a shear flow at low reynolds and capillary number. Physical review E, 73 (5), 056708. [Article]

DUPIN, M. M., HALLIDAY, I. and CARE, C. M. (2006). Simulation of a microfluidic flow-focusing device. Physical Review E (PRE), 73 (5), 055701. [Article]

DUPIN, M. M., HALLIDAY, I. and CARE, C. M. (2006). A multi-component lattice boltzmann scheme: Towards the mesoscale simulation of blood flow. Medical engineering and physics, 28 (1), 13-18. [Article]

DUPIN, M. M., SPENCER, T. J., HALLIDAY, I. and CARE, C. M. (2004). A many-component lattice boltzmann equation simulation for transport of deformable particles. Philosophical transactions of the royal society of london series A-mathematical physical and engineering sciences, 362 (1822), 1885-1914. [Article]

DUPIN, M. M., HALLIDAY, I. and CARE, C. M. (2004). A lattice boltzmann model of flow bunting. Philosophical transactions of the royal society of london series A-mathematical physical and engineering sciences, 362 (1821), 1755-1761. [Article]

LISHCHUK, S. V., CARE, C. and HALLIDAY, I. (2004). A lattice boltzmann scheme for a nematic-isotropic interface. Journal of physics: Condensed matter, 16 (19), 1931-44. [Article]

DUPIN, M. M., HALLIDAY, I. and CARE, C. (2003). Multi-component lattice boltzmann equation for mesoscale blood flow. Journal of physics A-mathematical and general, 36 (31), 8517-8534. [Article]

CARE, C. M., HALLIDAY, I., GOOD, K. and LISHCHUK, S. V. (2003). Generalized lattice boltzmann algorithm for the flow of a nematic liquid crystal with variable order parameter. Physical review E, 67 (6), 061703. [Article]

LISHCHUK, S. V., CARE, C. M. and HALLIDAY, I. (2003). Lattice boltzmann algorithm for surface tension with greatly reduced microcurrents. Physical review E, 67 (3), 036701. [Article]

HALLIDAY, I., HAMMOND, L. A. and CARE, C. M. (2002). Enhanced closure scheme for lattice boltzmann equation hydrodynamics. Journal of physics A-mathematical and general, 35 (12). [Article]

HALLIDAY, I., HAMMOND, L. A., CARE, C. M., GOOD, K. and STEVENS, A. (2001). Lattice Boltzmann equation hydrodynamics. Physical review E, 64 (1), 011208. [Article]

JONES, W. and HALLIDAY, I. (2001). Effects of excitation and ionization in meteor trains. Monthly Notices of the Royal Astronomical Society, 320 (4), 417-423. [Article]

CARE, C. M., HALLIDAY, I. and GOOD, K. (2000). Lattice Boltzmann nemato-dynamics. Journal of Physics: Condensed Matter, 12 (43), L665-L671. [Article]

WHITE, D. M., HALLIDAY, I., CARE, C. M., STEVENS, A. and THOMPSON, A. (2000). An enhanced lattice Bhatnagar-Gross-Krook method for Boussinesq flow. Physica D Nonlinear Phenomena, 141 (3-4), 199-213. [Article]

WHITE, D. M., HALLIDAY, I., CARE, C. M. and STEVENS, A. (1999). Application of the lattice Bhatnagar-Gross-Krook method to the simulation of internal pressure-driven flow. Physica D Nonlinear Phenomena, 129 (1-2), 68-82. [Article]

THOMPSON, S. P., HALLIDAY, I. and CARE, C. M. (1999). Mesoscopic hydrodynamics of diphasic Lattice Bhatnagar Gross Krook fluid interfaces. Physical Chemistry Chemical Physics, 1 (9), 2183-2190. [Article]

HALLIDAY, I., THOMPSON, S. P. and CARE, C. M. (1998). Macroscopic surface tension in a lattice Bhatnagar-Gross-Krook model of two immiscible fluids. Physical Review E (PRE), 57 (1), 514-523. [Article]

HALLIDAY, I., CARE, C. M., THOMPSON, S. and WHITE, D. (1996). Induced burst of fluid drops in a two-component lattice Bhatnager-Gross-Krook fluid. Physical Review E (PRE), 54 (3), 2573-2576. [Article]

HALLIDAY, I. and CARE, C. M. (1996). Steady state hydrodynamics of a lattice Boltzmann immiscible lattice gas. Physical Review E (PRE), 53 (2), 1602-1612. [Article]

SONNTAG, P., CARE, C. M., SPELLS, S. J. and HALLIDAY, I. (1995). Neutron-scattering from solution-grown polymer crystals - a statistical model. Journal of the Chemical Society - Faraday Transactions, 91 (16), 2593-2599. [Article]

BOOTH, R. J. C., HUA, L., TUCKER, J. W., CARE, C. M. and HALLIDAY, I. (1993). Monte-Carlo study of the BEG model on a honeycomb lattice. Journal of Magnetism and Magnetic Materials, 128 (1-2), 117-123. [Article]

Book Section

MONTESSORI, A., HALLIDAY, I., LAURICELLA, M., LISHCHUK, S.V., PONTRELLI, G., SPENCER, T.J. and SUCCI, S. (2017). Multicomponent lattice Boltzmann models for biological applications. In: CERROLAZA, Miguel, SHEFELBINE, Sandra and GARZÓN-ALVARADO, Diego, (eds.) Numerical Methods and Advanced Simulation in Biomechanics and Biological Processes. Elsevier, 357-370. [Book Section]

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