Dr Luke Fullard staff profile picture

Contact details +64 (06) 356 9099  ext. 84650

Dr Luke Fullard

Postdoctoral Fellow in Mathematics

Institute of Fundamental Sciences

Research Expertise

Research Interests

Fluid dynamics. granular flow, non-Newtonian flow

Thematics

21st Century Citizenship, Resource Development and Management, Health and Well-being

Area of Expertise

Field of research codes
Applied Mathematics (010200):
Chemical Engineering (090400):
Classical Physics (020300):
Engineering (090000):
Fluid Physics (020303):
Mathematical Sciences (010000):
Physical Sciences (020000):
Powder and Particle Technology (090406): Process Control and Simulation (090407)

Keywords

Fluid dynamics, MATLAB. mathematical modelling

Research Projects

Summary of Research Projects

Position Current Completed
Project Leader 0 1
Student 1 0

Research Outputs

Journal

Fullard, L., & Davies, C. (2017). Minimising the spread of residence-time distribution for flat and heaped powders in a wedge-shaped planar hopper. Particuology. 30, 102-110
[Journal article]Authored by: Davies, C., Fullard, L.
Fullard, LA., Davies, CE., Lube, G., Neather, AC., Breard, ECP., & Shepherd, BJ. (2017). The transient dynamics of dilation waves in granular phase transitions during silo discharge. Granular Matter. 19(1)
[Journal article]Authored by: Davies, C., Fullard, L., Lube, G.
Irvine, S., & Fullard, L. (2016). The Effect of Slip on the Discharge from Partially Filled Circular and Fully Filled Lens and Figure 8 Shaped Pipes. Journal of Fluids Engineering, Transactions of the ASME. 138(11)
[Journal article]Authored by: Fullard, L.
Fullard, LA., & Wake, GC. (2015). An analytical series solution to the steady laminar flow of a Newtonian fluid in a partially filled pipe, including the velocity distribution and the dip phenomenon. IMA Journal of Applied Mathematics (Institute of Mathematics and Its Applications). 80(6), 1890-1901
[Journal article]Authored by: Fullard, L., Wake, G.
Fullard, LA., Lammers, WJ., & Ferrua, MJ. (2015). Advective mixing due to longitudinal and segmental contractions in the ileum of the rabbit. Journal of Food Engineering. 160, 1-10
[Journal article]Authored by: Fullard, L.
Fullard, L., & Davies, C. (2013). Ejection times from a conical mass flow hopper - Coulomb and conical model differences. Applied Mathematical Modelling.
[Journal article]Authored by: Davies, C., Fullard, L.
Sweatman, WL., Wake, GC., Fullard, L., & Bruna, M. (2011). Recovering vanadium during the production of steel from iron sand. ANZIAM Journal. 53(SUPPL)
[Journal article]Authored by: Fullard, L., Sweatman, W., Wake, G.
Fullard, L., Lammers, W., Wake, GC., & Ferrua, MJ. (2014). Propagating longitudinal contractions in the ileum of the rabbit-Efficiency of advective mixing. Food and Function. 5(11), 2731-2742
[Journal article]Authored by: Fullard, L., Wake, G.
Fullard, LA., Davies, CE., & Wake, GC. (2013). Modelling powder mixing in mass flow discharge: A kinematic approach. Advanced Powder Technology. 24(2), 499-506
[Journal article]Authored by: Davies, C., Fullard, L., Wake, G.
Fullard, LA., & Lynch, TA. (2012). On the Initiation of a Hydrothermal Eruption Using the Shock-Tube Model. Transport in Porous Media. 94(1), 19-46
[Journal article]Authored by: Fullard, L., Lynch, T.
Fullard, LA., & Lynch, TA. (2012). The Effect of Cracks and a Steam Cap on Hydrothermal Eruptions. Transport in Porous Media. 92(1), 15-28
[Journal article]Authored by: Fullard, L., Lynch, T.
Sweatman, WL., Wake, GC., Fullard, L., & Bruna, M. (2011). Recovering vanadium during the production of steel from iron sand. ANZIAM Journal. 53, M1-M21 Retrieved from http://journal.austms.org.au/ojs/index.php/ANZIAMJ/article/view/4674
[Journal article]Authored by: Fullard, L., Wake, G.
McKibbin, R., Smith, TA., & Fullard, LA. (2009). Components and phases: Modelling progressive hydrothermal eruptions. ANZIAM Journal. 50(Special Issue 3), 365-380 Retrieved from http://journals.cambridge.org/article_S144618110900011X
[Journal article]Authored by: Fullard, L.

Conference

Fullard, LA., Irvine, S., & Davies, CE. (2015). The Effect Of Heaped and Sloped Powder Layers on Ejection Times and the Residence-Time Distribution of a Conical Mass-Flow Hopper.. http://www.springer.com/gp/book/9784431553410. : Forum "Math-for-Industry" 2014 -Applications + Practical Conceptualization + Mathematics = fruitful Innovation
[Conference Paper in Published Proceedings]Authored by: Davies, C., Fullard, L.
Fullard, L., Sweatman, W., Wilkins, M., Cater, J., Kueh, CSL., Lau, J., . . . Wang, Y. (2016). Eliminating early cut-offs and estimating cycle end time in a tumble dryer. In G. Wake, & AJ. Roberts (Eds.) ANZIAM Journal - Proceedings of the 2015 Mathematics and Statistics in Industry NZ Study Group, MISG-2015. Vol. 57 (pp. M237 - M267). : 2015 Mathematics and Statistics in Industry NZ Study Group, MISG-2015
[Conference Paper in Published Proceedings]Authored by: Fullard, L., Kueh, C., Sweatman, W.Contributed to by: Kueh, C.
Fullard, L., & Davies, CE. (2015). X-Ray Measurements of Voidage in a Flat-Bottomed 2-D Silo with a Central Discharge. In http://www.aiche.org/conferences/aiche-annual-meeting/2014, 2014 AIChE Annual Meeting
[Conference Abstract]Authored by: Davies, C., Fullard, L.
Fullard, L., Lammers, W., & Ferrua, MJ. (2014). Mixing efficiency of longitudinal muscle and segmentive contractions in the small intestine. , Annual Meeting of the American Institute of Chemical Engineers
[Conference Abstract]Authored by: Fullard, L.
Fullard, LA., & Davies, CE. (2013). A brief investigation into ejection times from a conical mass flow Hopper-Coulomb and conical model difference. http://scitation.aip.org/content/aip/proceeding/aipcp/10.1063/1.4812166. Vol. 1542 (pp. 1254 - 1257). http://scitation.aip.org/content/aip/proceeding/aipcp/10.1063/1.4812166: Powders and Grains
[Conference Paper in Published Proceedings]Authored by: Davies, C., Fullard, L.
Davies, CE., Fullard, LA., & Wake, G. (2012, July). Modelling powder mixing in mass flow discharge: A kinematic approach. Presented at 5th Asian Particle Technology Symposium 2012. Singapore, Malaysia.
[Conference Oral Presentation]Authored by: Davies, C., Fullard, L., Wake, G.
Fullard, LA., & Davies, CE.A brief investigation into ejection times from a conical mass flow Hopper - Coulomb and conical model difference. AIP Conference Proceedings. (pp. 1254 - 1257). 0094-243X.
[Conference]Authored by: Davies, C., Fullard, L.
Fullard, L., Davies, CE., & Wake, G. (2012). Residence Time Distribution As Predicted by a Kinematic Model for Mass Flow Powder Discharge From a Conical Hopper. , AIChE 2012 Annual Meeting
[Conference Abstract]Authored by: Davies, C., Fullard, L., Wake, G.
Fullard, L., Davies, CE., & Wake, GC. (2012). A kinematic model for powder mixing in mass flow discharge from a conical hopper. Chemeca 2012: Quality of life through chemical engineering: 23-26 September 2012, Wellington, New Zealand. (pp. 685 - 697). : Chemeca 2012
[Conference Paper in Published Proceedings]Authored by: Davies, C., Fullard, L., Wake, G.

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