Follow
michael h. peters
michael h. peters
Professor of Chemical and Life Science Engineering
Verified email at vcu.edu - Homepage
Title
Cited by
Cited by
Year
A Brownian dynamics simulation of aerosol deposition onto spherical collectors
D Gupta, MH Peters
Journal of Colloid and interface Science 104 (2), 375-389, 1985
1301985
Predicted deposition of submicrometer particles due to diffusion and electrostatics in viscous axisymmetric stagnation-point flow
DW Cooper, MH Peters, RJ Miller
Aerosol science and technology 11 (2), 133-143, 1989
1031989
Reactant dynamics in catalytic fluidized bed reactors with flow reversal of gas in the emulsion phaset
MH Peters, LS Fan, TL Sweeney
Chemical Engineering Science 37 (4), 553-565, 1982
641982
The effects of electrostatic and inertial forces on the diffusive deposition of small particles onto large disks: viscous axisymmetric stagnation point flow approximations
MH Peters, DW Cooper, RJ Miller
Journal of aerosol science 20 (1), 123-136, 1989
491989
Deposition of submicron aerosol particles during integrated circuit manufacturing: theory
DW COOPER, RJ MILLER, JINJ WU, MH PETERS
Particulate science and technology 8 (3-4), 209-224, 1990
441990
Fokker-Planck equation and the grand molecular friction tensor for coupled rotational and translational motions of structured Brownian particles near structured surfaces
MH Peters
The Journal of chemical physics 110 (1), 528-538, 1999
421999
Interparticle and particle-surface gas dynamic interactions
R Ying, MH Peters
Aerosol science and technology 14 (4), 418-433, 1991
381991
Simulation of particulate removal in gas‐solid fluidized beds
MH Peters, LS Fan, TL Sweeney
AIChE Journal 28 (1), 39-49, 1982
381982
Fokker–Planck equation, molecular friction, and molecular dynamics for Brownian particle transport near external solid surfaces
MH Peters
Journal of Statistical Physics 94, 557-586, 1999
311999
Study of particle ejections in the freeboard region of a fluidized bed with an image carrying probe
MH Peters, LS Fan, TL Sweeney
Chem. Eng. Sci.;(United Kingdom) 38 (3), 1983
301983
Hydrodynamic interaction of two unequal-sized spheres in a slightly rarefied gas: resistance and mobility functions
R Ying, MH Peters
Journal of Fluid Mechanics 207, 353-378, 1989
251989
The Smoluchowski diffusion equation for structured macromolecules near structured surfaces
MH Peters
The Journal of Chemical Physics 112 (12), 5488-5498, 2000
242000
Filtration of airborne dust in a triboelectrically charged fluidized bed
G Tardos, R Pfeffer, M Peters, T Sweeney
Industrial & engineering chemistry fundamentals 22 (4), 445-453, 1983
241983
Nonequilibrium, multiple‐timescale simulations of ligand‐receptor interactions in structured protein systems
Y Zhang, MH Peters, Y Li
Proteins: Structure, Function, and Bioinformatics 52 (3), 339-348, 2003
192003
On the angular dependence of aerosol diffusional deposition onto spheres
D Gupta, MH Peters
Journal of colloid and interface science 110 (1), 286-291, 1986
191986
Phase-space diffusion equations for single Brownian particle motion near surfaces
MH PETERS, R YING
Chemical Engineering Communications 108 (1), 165-184, 1991
181991
A dynamic simulation of particle deposition on spherical collectors
MH Peters, RK Jalan, D Gupta
Chemical engineering science 40 (5), 723-731, 1985
171985
Systems and methods for indoor air quality based on dynamic people modeling to simulate or monitor airflow impact on pathogen spread in an indoor space and to model an indoor …
M Peters, KP Phalak, D Gupta, G Wang, Y Liu, IIRM COSBY
US Patent App. 16/986,086, 2022
162022
Nonequilibrium molecular dynamics simulation of free-molecule gas flows in complex geometries with application to Brownian motion of aggregate aerosols
MH Peters
Physical Review E 50 (6), 4609, 1994
161994
Static all-atom energetic mappings of the SARS-Cov-2 spike protein and dynamic stability analysis of “Up” versus “Down” protomer states
MH Peters, O Bastidas, DS Kokron, CE Henze
PLoS One 15 (11), e0241168, 2020
152020
The system can't perform the operation now. Try again later.
Articles 1–20