The role of thermophoresis in trapping of diesel and gasoline particulate matter

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• 作者：Henrik Str?m ; Srdjan Sasic
• 关键词：Thermophoresis ; Particulate matter ; Automotive catalysis ; Particle deposition ; Computational fluid dynamics
• 刊名：Catalysis Today
• 出版年：2012
• 出版时间：1 July, 2012
• 年：2012
• 卷：188
• 期：1
• 页码：14-23
• 全文大小：540 K

文摘

Thermophoresis is the phenomenon by which sub-micron particles suspended in a gas move in the direction of decreasing temperature. It occurs naturally in automotive catalysts and is responsible for improved particle deposition during transient operation when a hot, particle-laden exhaust gas flows through a cool monolith. Although the time-averaged effects of thermophoresis are expected to be relatively small, it is possible that the effect can be enhanced by a properly designed aftertreatment system.

In the current work, thermophoretic effects on particle deposition in automotive catalysts are studied by means of numerical simulations. The potential gain in deposition efficiency obtainable by employing thermophoresis is investigated for both laminar and turbulent flow in a standard monolith channel. The monolith is also compared to a plate-to-plate thermal precipitator. We show here that a substantial enhancement of especially the intermediate-sized particulate matter may be obtained by taking advantage of thermophoresis. In addition, we investigate a number of design ideas for thermophoretic particle trapping devices.

We also discuss the difficulties involved in using thermophoresis for particle capture, for example that the collecting surface must be cooler than the exhaust gas whereas catalytic activity for the oxidation of soot is still a challenge at low temperatures.