A bedform phase diagram for dense granular currents G Smith, P Rowley, R Williams, G Giordano, M Trolese, A Silleni, ... Nature communications 11 (1), 2873, 2020 | 34 | 2020 |
Investigation of variable aeration of monodisperse mixtures: implications for pyroclastic density currents GM Smith, R Williams, PJ Rowley, DR Parsons Bulletin of Volcanology 80, 1-12, 2018 | 18 | 2018 |
Propagation of aerated pyroclastic density current analogues: flow behaviour and the formation of bedforms and deposits GM Smith University of Hull, 2020 | 2 | 2020 |
Stationary surface waves and antidunes in dense pyroclastic density currents P Rowley, G Giordano, A Silleni, G Smith, M Trolese, R Williams EarthArXiv, 2023 | 1 | 2023 |
Spontaneous Unsteadiness and Sorting in Pyroclastic Density Currents and their Deposits P Rowley, R Williams, M Johnson, T Johnston, NJ Dowey, D Parsons, ... EarthArXiv, 2023 | | 2023 |
Characterising the flow-boundary zone in fluidised granular currents G Smith, R Williams, P Rowley, D Parsons EarthArXiv, 2023 | | 2023 |
Investigation of variable aeration of monodisperse mixtures: implications for Pyroclastic Density Currents 2 GM Smith, R Williams, PJ Rowley, DR Parsons | | |
The high mobility of dense pyroclastic density currents (PDCs) is commonly attributed 19 to high gas pore pressures. However, the influence of spatial and temporal variations … GM Smith, R Williams, PJ Rowley, DR Parsons | | |
Pyroclastic density currents: the influence of variable aeration GM Smith, R Williams, PJ Rowley, DR Parsons | | |