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CFD simulation of homogeneous reactions in turbulent pipe flows-Tubular non-catalytic reactors [An article from: Chemical Engineering Journal]
Book Details
Author(s)K. Ekambara, M.T. Dhotre, J.B. Joshi
PublisherElsevier
ISBN / ASINB000RR83Q4
ISBN-13978B000RR83Q5
MarketplaceFrance 🇫🇷
Description
This digital document is a journal article from Chemical Engineering Journal, published by Elsevier in . The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
An analysis of turbulent reactive flows in tubular non-catalytic reactors is presented for various reaction orders and rate constants. A CFD model has been developed to predict the flow pattern in pipe flow using low Reynolds number k-@? model. Particular emphasis is placed upon analyzing the phenomena near the wall region. The CFD model has been extended to simulate the axial dispersion phenomena in turbulent regions. Further, the CFD model has been extended to obtain changes in the radial and axial concentration distributions. For the case of thermally neutral reactions and the isothermal conditions, it was observed that the lower order reactions cause a more rapid decrease in the axial concentrations. The effect of Reynolds and Schmidt numbers on the conversion levels is also discussed.
Description:
An analysis of turbulent reactive flows in tubular non-catalytic reactors is presented for various reaction orders and rate constants. A CFD model has been developed to predict the flow pattern in pipe flow using low Reynolds number k-@? model. Particular emphasis is placed upon analyzing the phenomena near the wall region. The CFD model has been extended to simulate the axial dispersion phenomena in turbulent regions. Further, the CFD model has been extended to obtain changes in the radial and axial concentration distributions. For the case of thermally neutral reactions and the isothermal conditions, it was observed that the lower order reactions cause a more rapid decrease in the axial concentrations. The effect of Reynolds and Schmidt numbers on the conversion levels is also discussed.
