Three-dimensional DSMC simulation of thermal Knudsen force in micro gas actuator for mass analysis of gas mixture

摘要

High precision detection and measurement of the components of a gas mixture are highly significant in chemical industries. In the textile industry, CO2 is widely used to dye the textile material without water called Supercritical Fluid Dyeing Technology. In this study, a computational technique is applied to investigate the ability of an innovative MEMS gas actuator (MIKRA) for the sensation of the specific component in the gas mixture. This work also investigated various mixtures of gases and various relative concentrations of CO2 to N-2. In this actuator, the temperature dissimilarity of two arms at rarefied conditions produces a Knudsen force. Due to the micro size of this sensor, this actuator is highly significant for the inaccessible detection domain. This work tries to reveal the main mechanism for this sensor to increase the precision of the detection. The flow patterns of a mixture gas within this micro gas sensor are examined by Direct Simulation Monte Carlo (DSMC) method since the domain of this micro gas is non-equilibrium. According to the obtained results, a three-dimensional model presents more reliable results and the effect of a gap for the three-dimensional model demonstrates the impact of this parameter on the effective Knudsen force. (C) 2020 Elsevier Ltd. All rights reserved.