Numerical Modeling of Chemical and Thermal Coupling in a Silicon Carbide Based Heat Exchanger Reactor |
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| Journal | Advanced Materials Research (Volume 112) |
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| Volume | Advances in Structural Analysis of Advanced Materials |
| Edited by | Moussa Karama |
| Pages | 93-101 |
| DOI | 10.4028/www.scientific.net/AMR.112.93 |
| Citation | Benjamin Boniface et al., 2010, Advanced Materials Research, 112, 93 |
| Online since | May, 2010 |
| Authors | Benjamin Boniface, Serge Caperaa, Olivier Dalverny |
| Keywords | Finite Difference Integration, Fluid-Structure Coupling, Heat Transfer, Intensified Reactor, Process Intensification, Thermo-Chemical Coupling |
| Abstract | The objective of this paper is to present the solution developed to model the chem- ical and thermal coupling occurring in an intensi ed heat exchanger reactor. The results of this modeling are all the properties of the chemical uid along the conduit, and the temperature distribution in the structure. This will be used to manage a thermal and mechanical reliability study of the heat exchanger reactor. |
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