# Research publications (Gold access)

Here is a sample of recent published papers by academics in the CDT in Fluid Dynamics.

### Gold Open Access

Paper and Links | Research Themes |
---|---|

Bollada, P C, Jimack, P K & Mullis, A M, Bracket Formalism Applied to Phase Field Models of Alloy Solidification. Computational Materials Science, vol.126, 426-437, 2017. | Reacting Flows, Mixing & Safety, Microflows & Heat Transfer |

Bollada, P., Goodyera, C., Jimack, P., Mullis, A., Yang, F., Three dimensional thermal-solute phase field simulation of binary alloy solidification, Journal of Computational Physics, vol. 287, pp.130–150, 2015. | Reacting Flows, Mixing & Safety, Microflows & Heat Transfer |

Hendriske, R., Bayly, A., Jimack, P K. Studying the Structure of Sodium Lauryl Ether Sulfate Solutions Using Dissipative Particle Dynamics. J. Phys. Chem. B 2022, 126, 40, 8058–8071. | Reacting Flows, Mixing & Safety, Microflows &amp |

Hendriske, R., Bayly, A., Jimack, P K, Lai, X. Using Raman Spectroscopy and Molecular Dynamics to Study Conformation Changes of Sodium Lauryl Ether Sulfate Molecules. Phys. Chem. B 2023, 127, 20, 4676–4686. | Reacting Flows, Mixing & Safety, Microflows &amp. |

Zagklavara, F., Jimack P K, Kapur, N., Querin, O M, Thompson, H M. Multi-objective optimisation of polymerase chain reaction continuous flow systems. Biomedical Microdevices (2022) 24: 16. | Biomedical Flows, Reacting Flows, Mixing & Safety, Microflows & Heat Transfer. |

Bollada, P C., 1, Jimack, P K., Mullis, A M. Towards a Physically Consistent Phase-Field Model for Alloy Solidification. Metals 2022, 12(2), 272. | Reacting Flows, Mixing & Safety, Microflows |

Hendriske, R., Bayly, A., Jimack, P K. Anionic surfactant solutions under shear using dissipative particle dynamics, The Journal of Chemical Physics, Vol. 158, 214906 (2023) |
Industrial processes, Reacting Flows, Mixing. |

Aljohani, M A, Jimack P K, Walkley, M A. A faster optimal solver for thin film flows. Applied Numerical Mathematics, Volume 184, February 2023, Pages 357-370. | Industrial Processes. |

Wang, Y., Jimack, P K, Walkley, M A., Yang, D., Thompson, H M. An optimal control method for time-dependent fluid-structure interaction problems. Structural and Multidisciplinary Optimization (2021) 64:1939–1962. | Fluid Structure Interactions, Industrial Processes. |

Lloyd, C.J., Mittal, K., Dutta, S., Dorrell, R.M., Peakall, J., Keevil, G.M., Burns, A.D., 2023. Multi-fidelity modelling of shark skin denticle flows: insights into drag generation mechanisms. Royal Society Open Science, 10: 220684. | Biomedical Flows |

Lloyd, C.J., Peakall, J., Burns, A.D., Keevil, G.M., Dorrell, R.M., Wignall, P.B., Fletcher, T., 2021. Hydrodynamic efficiency in sharks: The combined role of riblets and denticles. Bioinspiration & Biomimetics, 16, 046008. | Biomedical Flows. |

Teed, R., Jones, C., Tobias, S., The transition to Earth-like torsional oscillations in magnetoconvection simulations Earth and Planetary Science Letters, vol. 419, pp.22-31, 2015. | Geophysical Flows |

Hori, K., Jones, C., Teed, R., Slow magnetic Rossby waves in the Earth's core, Geophysical Research Letters, 2015. | Geophysical Flows |

Jones, C., A dynamo model of Jupiter's magnetic field Icarus, vol. 241, pp. 148-159, 2014. | Geophysical Flows |

Teed, R., Jones, C., Tobias, S., The dynamics and excitation of torsional waves in geodynamo simulations, Geophysical Journal International, vol. 196, pp. 724-735, 2013. | Geophysical Flows |

Tobias, S., Cattaneo, F., Shear-driven dynamo waves at high magnetic Reynolds number, Nature, vol. 497, pp. 463–46, 2013. | Geophysical Flows |

Livermore, P., Hollerbach, R., Jackson, A., Electromagnetically driven westward drift and inner-core superrotation in Earth’s core, PNAS, Current Issue, vol. 110 no. 40, pp.15914–15918. | Geophysical Flows |

Dorrell, R., Darby, S., Peakall, J., Sumner, E., Parsons, D., Wynn, R., The critical role of stratification in submarine channels: Implications for channelization and long runout of flows, Journal of Geophysical Research: Oceans, vol. 119, pp. 2620–2641, 2014. | Geophysical Flows |

van Oers AM, Maas LRM, Bokhove O Hamiltonian discontinuous Galerkin FEM for linear, stratified (in)compressible Euler equations: internal gravity waves Journal of Computational Physics, 330, 770-793, 2017. | Geophysical Flows |

Davarpanah Jazi, S., Wells, M.G., Peakall, J., Dorrell, R.M., Thomas, R.E., Keevil, G.M., Darby, S.E., Sommeria, J., Viboud, S., Valran, T., 2020. Influence of Coriolis force upon bottom boundary layers in a large-scale gravity current experiment: Implications for evolution of sinuous deep-water channel systems. Journal of Geophysical Research – Oceans, 125, e2019JC015284. | Geophysical Flows |

Dorrell, R.M., Peakall, J., Darby, S.E., Parsons, D.R., Johnson, J., Sumner, E.J., Wynn, R.B., Özsoy, E., Tezcan, D., 2019. Self-sharpening induces jet-like structure in seafloor gravity currents. Nature Communications, 10: 1381. | Geophysical Flows |

Birch, C., Marsham, J., Parker, D., Taylor, C., The scale dependence and structure of convergence fields preceding the initiation of deep convection, Geophysical Research Letters, vol. 41, pp. 4769-4776, 2014. | Environmental Flows, Geophysical Flows |

Parker DJ; Willetts P; Birch C; Turner AG; Marsham JH; Taylor CM; Kolusu S; Martin GM (2016) The interaction of moist convection and mid-level dry air in the advance of the onset of the Indian monsoon, Quarterly Journal of the Royal Meteorological Society, 142, pp.2256-2272. | Environmental Flows, Geophysical Flows |

Hunt KMR; Parker DJ (2016) The movement of Indian monsoon depressions by interaction with image vortices near the Himalayan wall, Quarterly Journal of the Royal Meteorological Society, 142, pp.2224-2229. | Environmental Flows, Geophysical Flows |

Willetts PD; Marsham JH; Birch CE; Parker DJ; Webster S; Petch J (2016) Moist convection and its upscale effects in simulations of the Indian monsoon with explicit and parametrised convection, Quarterly Journal of the Royal Meteorological Society. | Environmental Flows, Geophysical Flows |

Dorrell, R., Darby, S., Peakall, J., Sumner, E., Parsons, D., Wynn, R., Superelevation and overspill control secondary flow dynamics in submarine channels, Journal of Geophysical Research: Oceans, vol. 118, pp. 3895–3915, 2013. | Environmental Flows, Geophysical Flows |

Malarkey, J., Baas, J., Hope, J., Aspden, R., Parsons, D., Peakall, J., Paterson, D., Schindler, R., Ye, L., Lichtman, I., Bass, S., Davies, A., Manning, A., Thorne, P., The pervasive role of biological cohesion in bedform development, Nature Communications, 6:6257, 2015. | Environmental Flows, Geophysical Flows |

Schindler, R., Parsons, D., Ye, L., Hope, J., Baas, J., Peakall, J., Manning, A., Aspden, R., Malarkey, J., Simmons, S., Paterson, D., Lichtman, I., Davies, A., Thorne, P., Bass, S., Sticky stuff: Redefining bedform prediction in modern and ancient environments, Geology, vol. 43, no. 5, pp. 399–402, 2015. | Environmental Flows, Geophysical Flows |

Sumner, E., Peakall, J., Dorrell, R., Parsons, D., Darby, S., Wynn, R., McPhail, S., Perrett, J., Webb, A., White, D., Driven around the bend: Spatial evolution and controls on the orientation of helical bend flow in a natural submarine gravity current, Journal of Geophysical Research: Oceans, vol. 119, pp. 898–913, 2014. | Environmental Flows, Geophysical Flows |

Taccari, M L., Nuttal, J., Chen, X., Wang, H., Minnema, B., Jimack, P K., Attention U-Net as a surrogate model for groundwater prediction. Advances in Water Resources Volume 163, May 2022, 104169. |
Environmental Flows, Geophysical Flows |

Bokhove, O., Horn, A., Meer, R., Thornton, A., Zweers, W., On wave-driven "shingle'' beach dynamics in a table-top Hele-Shaw cell, 34th Conference on Coastal Engineering, 2014. | Environmental Flows, Geophysical Flows |

Hughes, J., Ross, A., Vosper, S., Lock, A., Jemmett-Smith, B., Assessment of valley cold pools and clouds in a very high resolution NWP model, Geoscientific Model Development, vol. 8, pp. 3105-3117, 2015. | Environmental Flows, Geophysical Flows |

Fiedler, S., Knippertz, P., Woodward, S., Martin, G., Bellouin, N., Ross, A., Heinold, B., Schepanski, K., Birch, C., Tegen, I., A process-based evaluation of dust-emitting winds in the CMIP5 simulation of HadGEM2-ES, Climate Dynamics Online First, 2015. | Environmental Flows, Geophysical Flows |

Gidel FMP, Bokhove O, Kalogirou A Variational modelling of extreme waves through oblique interaction of solitary waves: application to Mach reflection Nonlinear Processes in Geophysics, 24, 43-60, 2017. | Environmental Flows, Geophysical Flows |

Trzeciak, T, Garcia-Carreras, L and Marsham, JH (2017) Cross Saharan transport of water vapour via recycled cold-pool outflows from moist convection. Geophysical Research Letters, 44 (3). pp. 1554-1563. ISSN 0094-8276. | Environmental Flows, Geophysical Flows |

Salwa TJ; Bokhove O; Kelmanson MA Variational Coupling of Wave Slamming against Elastic Masts Proceedings 31st International Workshop on Water Waves and Floating Bodies, 149-152 2016. | Environmental Flows |

Gagarina E, Ambati VR, Nurijanyan S, van der Vegt JJW, Bokhove O On variational and symplectic time integrators for Hamiltonian systems JOURNAL OF COMPUTATIONAL PHYSICS, 306, 370-389, 2016. | Environmental Flows |

Salwa T; Bokhove O; Kelmanson MA Variational modelling of wave-structure interactions for offshore wind turbines Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE 2016. | Environmental Flows |

Kalogirou A; Bokhove O Mathematical and numerical modelling of wave impact on wave-energy buoys Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE 2016. | Environmental Flows |

Bokhove O, Kalogirou A Variational Water Wave Modelling: from Continuum to Experiment. In Lectures on the Theory of Water Waves, 426, 226-245, 2016. | Environmental Flows |

McIlroy, C., Harlen, O., Morrison, N., Modelling the jetting of dilute polymer solutions in drop-on-demand inkjet printing, Journal of Non-Newtonian Fluid Mechanics, vol. 201, pp. 17-28, 2013. | Microflows & Heat Transfer, Particulate Flows, Sediments & Rheology |

Hoath, S. et al., Inkjet printing of weakly elastic polymer solutions, Journal of Non-Newtonian Fluid Mechanics, Vol 205, pp.1–10, 2014. | Microflows & Heat Transfer, Particulate Flows, Sediments & Rheology |

Hoath, S. et al., Oscillations of aqueous PEDOT:PSS fluid droplets and the properties of complex fluids in drop-on-demand inkjet printing, 2015. | Microflows & Heat Transfer, Particulate Flows, Sediments & Rheology |

Kalogirou A, Moulopoulou EE, Bokhove O Variational finite element methods for waves in a Hele-Shaw tank Applied Mathematical Modelling, 40, 7493-7503, 2016. | Particulate Flows, Sediments & Rheology |

King MF, Noakes CJ, Sleigh PA (2015) Modelling environmental contamination in hospital single and four-bed rooms, Indoor Air: international journal of indoor air quality and climate 25(6): 694-707. | Reacting Flows, Mixing & Safety, Environmental Flows |

Gilkeson CA, Noakes CJ, Khan MAI (2014) CFD Modelling and Optimisation of an Upper-Room UVGI System in a Naturally Ventilated Hospital Ward. Indoor and Built Envrionment vol. 23, pp.449-466. | Reacting Flows, Mixing & Safety, Environmental Flows |

Marshall, C.R., Dorrell, R.M., Keevil, G.M., Peakall, J., Tobias, S.M., 2023. On the role of transverse motion in pseudo-steady gravity currents. Experiments in Fluids, 64:63. | Energy and Transport. |

Chalk, C.M., Peakall, J., Keevil, G.M., Fuentes, R., 2022. Spatial and temporal evolution of an experimental debris flow, exhibiting coupled fluid and particulate phases. Acta Geotechnica, 17, 965–979. | Energy and Transport. |

Marshall, C.R., Dorrell, R.M., Keevil, G.M., Peakall, J., Tobias, S.M., 2021a. Observations of large-scale coherent structures in gravity currents: implications for flow dynamics. Experiments in Fluids, 62:120. | Energy and Transport; Underpinning methods for fluid dynamics. |

Marshall, C.R., Dorrell, R.M., Dutta, S., Keevil, G.M., Peakall, J., Tobias, S.M., 2021b. The effect of the Schmidt number on gravity current flows: the formation of large-scale three-dimensional structures. Physics of Fluids, 33, 106601. | Underpining methods for fluid dyanmics. |

Chalk, C., Pastor, M., Peakall, J., Borman, D., Sleigh, A., Murphy, W., Fuentes, R., 2020. Stress-Particle Smoothed Particle Hydrodynamics: an application to the failure and post-failure behaviour of slopes. Computer Methods in Applied Mechanics and Engineering, 366, 113034. | Underpining methods for fluid dyanmics. |

Lloyd, C.J., Peakall, J., Burns, A.D., Keevil, G.M., Dorrell, R.M., 2020. Numerical errors at walls: On the sensitivity of RANS models to near-wall cell size. International Journal of Computational Fluid Dynamics, 34, 204-225. | Underpining methods for fluid dyanmics. |