The Reynolds averaged N-S equation and dynamic equation for nanoparticles are numerically solved in the two-phase flow around cylinders, and the distributions of the concentration M0 and geometric mean diameter dg of particles are given. Some of the results are validated by comparing with previous results. The effects of particle coagulation and breakage and the initial particle concentration m00 and size d0 on the particle distribution are analyzed. The results show that for the flow around a single cylinder, M0 is reduced along the flow direction. Placing a cylinder in a uniform flow will promote particle breakage. For the flow around multiple cylinders, the values of M0 behind the cylinders oscillate along the spanwise direction, and the...
Analysis of fluid flow and heat transfer around bluff obstacles such as circular cylinders at low Re...
This paper presented experimental views of nano- and microaerosol distribution and deposition in tur...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...
In this paper, the dynamic evolution of nanoparticles in a turbulent Taylor–Couette flow was studied...
Numerical simulations of nanoparticle migration in a fully developed turbulent pipe flow are perform...
Transport of nanoparticles and coagulation is simulated with the combination of CFD in a circular be...
Multiphase flow, including submicron and nano-particles simultaneously, around circular cylinder is...
The concentration and size of particulate matter (PM) in atmosphere have a severe impact on human he...
Nanoparticle-laden two-phase flow systems, especially atmospheric aerosols, are usually found with s...
Numerical simulations of particles dispersed in simple flows (a linear shear flow and a pressure-dri...
AbstractA numerical analysis of steady, laminar and 2-D nanofluid flow around a circular cylinder ha...
This document reports the different activities conducted during one semester at the Department of Th...
We usually define as " nanoparticles ", those particles which present at least one dimension less th...
The motion of cylindrical particles in a mixing layer is studied using the pseudospectral method and...
Laminar two-dimensional sudden expansion flow of different nanofluids is studied numerically. The go...
Analysis of fluid flow and heat transfer around bluff obstacles such as circular cylinders at low Re...
This paper presented experimental views of nano- and microaerosol distribution and deposition in tur...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...
In this paper, the dynamic evolution of nanoparticles in a turbulent Taylor–Couette flow was studied...
Numerical simulations of nanoparticle migration in a fully developed turbulent pipe flow are perform...
Transport of nanoparticles and coagulation is simulated with the combination of CFD in a circular be...
Multiphase flow, including submicron and nano-particles simultaneously, around circular cylinder is...
The concentration and size of particulate matter (PM) in atmosphere have a severe impact on human he...
Nanoparticle-laden two-phase flow systems, especially atmospheric aerosols, are usually found with s...
Numerical simulations of particles dispersed in simple flows (a linear shear flow and a pressure-dri...
AbstractA numerical analysis of steady, laminar and 2-D nanofluid flow around a circular cylinder ha...
This document reports the different activities conducted during one semester at the Department of Th...
We usually define as " nanoparticles ", those particles which present at least one dimension less th...
The motion of cylindrical particles in a mixing layer is studied using the pseudospectral method and...
Laminar two-dimensional sudden expansion flow of different nanofluids is studied numerically. The go...
Analysis of fluid flow and heat transfer around bluff obstacles such as circular cylinders at low Re...
This paper presented experimental views of nano- and microaerosol distribution and deposition in tur...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...