David R Emerson
David R Emerson
Daresbury Laboratory
Verified email at
Cited by
Cited by
Modes of reaction front propagation from hot spots
XJ Gu, DR Emerson, D Bradley
Combustion and flame 133 (1-2), 63-74, 2003
Velocity boundary condition at solid walls in rarefied gas calculations
DA Lockerby, JM Reese, DR Emerson, RW Barber
Physical Review E 70 (1), 017303, 2004
A high-order moment approach for capturing non-equilibrium phenomena in the transition regime
X Gu, DR Emerson
Journal of fluid mechanics 636, 177-216, 2009
Lattice Boltzmann simulation of rarefied gas flows in microchannels
Y Zhang, R Qin, DR Emerson
Physical review E 71 (4), 047702, 2005
Continuous cell washing and mixing driven by an ultrasound standing wave within a microfluidic channel
JJ Hawkes, RW Barber, DR Emerson, WT Coakley
Lab on a Chip 4 (5), 446-452, 2004
Challenges in modeling gas-phase flow in microchannels: from slip to transition
RW Barber, DR Emerson
Heat Transfer Engineering 27 (4), 3-12, 2006
Biomimetic design of microfluidic manifolds based on a generalised Murray's law
DR Emerson, K Cieślicki, X Gu, RW Barber
Lab on a Chip 6 (3), 447-454, 2006
Capturing Knudsen layer phenomena using a lattice Boltzmann model
YH Zhang, XJ Gu, RW Barber, DR Emerson
Physical Review E 74 (4), 046704, 2006
Amplified pressure waves during autoignition: relevance to CAI engines
D Bradley, C Morley, XJ Gu, DR Emerson
SAE transactions, 2679-2690, 2002
dsmcFoam+: An OpenFOAM based direct simulation Monte Carlo solver
C White, MK Borg, TJ Scanlon, SM Longshaw, B John, DR Emerson, ...
Computer Physics Communications 224, 22-43, 2018
An optimal migration algorithm for dynamic load balancing
YF Hu, RJ Blake, DR Emerson
Concurrency: practice and experience 10 (6), 467-483, 1998
Numerical and experimental study of a droplet-based PCR chip
S Mohr, YH Zhang, A MacAskill, PJR Day, RW Barber, NJ Goddard, ...
Microfluidics and Nanofluidics 3, 611-621, 2007
A computational strategy for the regularized 13 moment equations with enhanced wall-boundary conditions
XJ Gu, DR Emerson
Journal of computational physics 225 (1), 263-283, 2007
Investigation of heat and mass transfer in a lid-driven cavity under nonequilibrium flow conditions
B John, XJ Gu, DR Emerson
Numerical Heat Transfer, Part B: Fundamentals 58 (5), 287-303, 2010
Optimal design of microfluidic networks using biologically inspired principles
RW Barber, DR Emerson
Microfluidics and Nanofluidics 4, 179-191, 2008
Velocity slip in microscale cylindrical Couette flow: The Langmuir model
RS Myong, JM Reese, RW Barber, DR Emerson
Physics of fluids 17 (8), 2005
The influence of Knudsen number on the hydrodynamic development length within parallel plate micro-channels
RW Barber, DR Emerson
WIT Transactions on Engineering Sciences 36, 2002
Gas flow in microchannels–a lattice Boltzmann method approach
YH Zhang, RS Qin, YH Sun, RW Barber, DR Emerson
Journal of Statistical Physics 121, 257-267, 2005
Lattice Boltzmann models for nonequilibrium gas flows
GH Tang, YH Zhang, DR Emerson
Physical Review E 77 (4), 046701, 2008
Lattice Boltzmann modelling Knudsen layer effect in non-equilibrium flows
GH Tang, YH Zhang, XJ Gu, DR Emerson
Europhysics letters 83 (4), 40008, 2008
The system can't perform the operation now. Try again later.
Articles 1–20