Theoretical Analysis of Heat Integration in a Periodically Operated Cascade of Catalytic Fixed-Bed Reactors
Identifieur interne : 001227 ( Main/Exploration ); précédent : 001226; suivant : 001228Theoretical Analysis of Heat Integration in a Periodically Operated Cascade of Catalytic Fixed-Bed Reactors
Auteurs : Volker M. Zahn [Allemagne] ; Michael Mangold [Allemagne] ; Mykhaylo Krasnyk [Allemagne] ; Andreas Seidel- Morgenstern [Allemagne]Source :
- Chemical engineering & technology [ 0930-7516 ] ; 2009.
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Abstract
Forced periodic operation can lead to improved reaction processes. Such operation is studied for the example of the application of a cascade of connected adiabatic fixed-bed reactors to perform catalytic total oxidation. It is shown that the periodic operation of the configuration considered allows an autothermal operation. The concept can outperform classical reverse-flow operation concerning the reduction of slips of unconverted feed. A simple model based on the assumption of a hypothetical countercurrent of the solid phase is derived and compared with a standard dynamical model of the reactor cascade. By evaluation of steady state profiles and application of bifurcation theory, it is demonstrated that the reduced model describes the limiting case for an infinitely segmented cascade and allows assessment of important properties of the periodic process. It permits a fast and detailed analysis of limit point bifurcations, which result in curves enclosing the region of desired ignited states of the reactor. Using singularity analysis further helps to understand the influence of secondary parameters and to identify opera- tional limits.
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Zahn</name><affiliation wicri:level="3"><inist:fA14 i1="01"><s1>Max-Planck-Institut für Dynamik komplexer technischer Systeme</s1><s2>Magdeburg</s2><s3>DEU</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Allemagne</country><placeName><region type="land" nuts="2">Saxe-Anhalt</region><settlement type="city">Magdebourg</settlement></placeName></affiliation></author><author><name sortKey="Mangold, Michael" sort="Mangold, Michael" uniqKey="Mangold M" first="Michael" last="Mangold">Michael Mangold</name><affiliation wicri:level="3"><inist:fA14 i1="01"><s1>Max-Planck-Institut für Dynamik komplexer technischer Systeme</s1><s2>Magdeburg</s2><s3>DEU</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Allemagne</country><placeName><region type="land" nuts="2">Saxe-Anhalt</region><settlement type="city">Magdebourg</settlement></placeName></affiliation></author><author><name sortKey="Krasnyk, Mykhaylo" sort="Krasnyk, Mykhaylo" uniqKey="Krasnyk M" first="Mykhaylo" last="Krasnyk">Mykhaylo Krasnyk</name><affiliation wicri:level="3"><inist:fA14 i1="01"><s1>Max-Planck-Institut für Dynamik komplexer technischer Systeme</s1><s2>Magdeburg</s2><s3>DEU</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Allemagne</country><placeName><region type="land" nuts="2">Saxe-Anhalt</region><settlement type="city">Magdebourg</settlement></placeName></affiliation></author><author><name sortKey="Seidel Morgenstern, Andreas" sort="Seidel Morgenstern, Andreas" uniqKey="Seidel Morgenstern A" first="Andreas" last="Seidel- Morgenstern">Andreas Seidel- Morgenstern</name><affiliation wicri:level="3"><inist:fA14 i1="01"><s1>Max-Planck-Institut für Dynamik komplexer technischer Systeme</s1><s2>Magdeburg</s2><s3>DEU</s3><sZ>1 aut.</sZ><sZ>2 aut.</sZ><sZ>3 aut.</sZ><sZ>4 aut.</sZ></inist:fA14><country>Allemagne</country><placeName><region type="land" nuts="2">Saxe-Anhalt</region><settlement type="city">Magdebourg</settlement></placeName></affiliation><affiliation wicri:level="3"><inist:fA14 i1="02"><s1>Otto-von-Guericke-Universität, Institut für Verfahrenstechnik</s1><s2>Magdeburg</s2><s3>DEU</s3><sZ>4 aut.</sZ></inist:fA14><country>Allemagne</country><placeName><region type="land" nuts="2">Saxe-Anhalt</region><settlement type="city">Magdebourg</settlement></placeName></affiliation></author></analytic><series><title level="j" type="main">Chemical engineering & technology</title><title level="j" type="abbreviated">Chem. eng. technol.</title><idno type="ISSN">0930-7516</idno><imprint><date when="2009">2009</date></imprint></series></biblStruct></sourceDesc><seriesStmt><title level="j" type="main">Chemical engineering & technology</title><title level="j" type="abbreviated">Chem. eng. technol.</title><idno type="ISSN">0930-7516</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Adiabatic</term><term>Bifurcation</term><term>Catalytic reaction</term><term>Countercurrent flow</term><term>Fixed bed reactor</term><term>Heat recovery</term><term>Modeling</term><term>Oxidation</term><term>Singularity</term><term>Steady state</term></keywords><keywords scheme="Pascal" xml:lang="fr"><term>Récupération chaleur</term><term>Réaction catalytique</term><term>Réacteur lit fixe</term><term>Adiabatique</term><term>Oxydation</term><term>Modélisation</term><term>Ecoulement contre courant</term><term>Régime permanent</term><term>Bifurcation</term><term>Singularité</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Forced periodic operation can lead to improved reaction processes. Such operation is studied for the example of the application of a cascade of connected adiabatic fixed-bed reactors to perform catalytic total oxidation. It is shown that the periodic operation of the configuration considered allows an autothermal operation. The concept can outperform classical reverse-flow operation concerning the reduction of slips of unconverted feed. A simple model based on the assumption of a hypothetical countercurrent of the solid phase is derived and compared with a standard dynamical model of the reactor cascade. By evaluation of steady state profiles and application of bifurcation theory, it is demonstrated that the reduced model describes the limiting case for an infinitely segmented cascade and allows assessment of important properties of the periodic process. It permits a fast and detailed analysis of limit point bifurcations, which result in curves enclosing the region of desired ignited states of the reactor. Using singularity analysis further helps to understand the influence of secondary parameters and to identify opera- tional limits.</div></front></TEI><affiliations><list><country><li>Allemagne</li></country><region><li>Saxe-Anhalt</li></region><settlement><li>Magdebourg</li></settlement></list><tree><country name="Allemagne"><region name="Saxe-Anhalt"><name sortKey="Zahn, Volker M" sort="Zahn, Volker M" uniqKey="Zahn V" first="Volker M." last="Zahn">Volker M. Zahn</name></region><name sortKey="Krasnyk, Mykhaylo" sort="Krasnyk, Mykhaylo" uniqKey="Krasnyk M" first="Mykhaylo" last="Krasnyk">Mykhaylo Krasnyk</name><name sortKey="Mangold, Michael" sort="Mangold, Michael" uniqKey="Mangold M" first="Michael" last="Mangold">Michael Mangold</name><name sortKey="Seidel Morgenstern, Andreas" sort="Seidel Morgenstern, Andreas" uniqKey="Seidel Morgenstern A" first="Andreas" last="Seidel- Morgenstern">Andreas Seidel- Morgenstern</name><name sortKey="Seidel Morgenstern, Andreas" sort="Seidel Morgenstern, Andreas" uniqKey="Seidel Morgenstern A" first="Andreas" last="Seidel- Morgenstern">Andreas Seidel- Morgenstern</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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