With the aid of direct simulation Monte Carlo (DSMC), we conduct a detailed investigation

pertaining to the fluid and thermal characteristics of rarefied gas flow with regard to various

arrangements for radiometric pumps featuring vane...

Natural convection gaseous slip flows in open-ended vertical parallel-plate microchannels with symmetric wall heat fluxes are numerically investigated. A second-order model, including thermal creep effects, is considered ...

In the current study we performed a DSMC investigation to study the non-equilibrium effects on monatomic and diatomic rarefied flows in micro/nano lid-driven cavity. Our DSMC solver is parallel and benefits from a variable ...

The accuracy of the numerical simulation of rarefied gas flows, in particular the Navier-Stokes-Fourier (N-S-F) equations, depends on the employed surface boundary conditions. In the literature, the combination of the second order slip...

Direct simulation Monte Carlo (DSMC) method with simplified Bernoulli-trials (SBT) collision

scheme has been used to study the rarefied pressure-driven nitrogen flow through diverging

microchannels. The fluid ...

A detailed study on thermally driven flows through divergent micro/nanochannels is presented. Rarefied gas flow behavior and thermal mass flow rate were investigated with different divergence angles ranging between 0° and 7° at two aspect ratios (AR...

Rarefied gas flows in nano-scale isosceles triangular cavities with a motion away from the square corner are considered over a wide range of flow rarefactions regimes, i.e., 0.01≤Kn≤10, using the direct simulation Monte Carlo (DSMC) method. We put...

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Additionally, gas flow becomes more uniform at

higher flow Knudsen number....

An artificial neural network (ANN) was developed on MATLAB platform for predicting the reaction furnace temperature. Three important variable of the reaction furnace: fuel gas spiking, air and acid gas temperature and H2S ...