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Modeling of process intensification / edited by Frerich Johannes Keil

Contributor(s): Keil, Frerich, 1947-.
Publisher: Weinheim : Wiley-VCH, 2007Description: xv, 405 p. : ill. ; 25 cm.ISBN: 9783527311439 (hbk.); 3527311432 (hbk.).Subject(s): Chemical process control | Chemical process control -- Mathematical models | Chemical process control -- Simulation methodsDDC classification: 660.15118
Contents:
Preface. - List of contributors. - 1. Modeling of process intensification - an introduction and overview. 2. Process intensification - an industrial point of view. - 3. Modeling and simulation of microreactors. - 4. Modeling and simulation of unsteady-state-operated trickle-flow reactors. - 5. Packed-bed membrane reactors. - 6. The focused action of surface tension versus the brute force of turbulence - scaleable microchannel-based process intensification using monoliths. - 7. Chemical reaction model in supercritical fluids in special consideration of reactions in supercritical water. - 8. Ultrasound reactors. - 9. Modeling of simulated moving-bed chromatography. - 10. Modeling of reactive distillation. - 11. Experimental and theoretical explorations of weak and strong-gradient magnetic fields in chemical multiphase process. - Index.
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Main Collection Taylor's Library-TU

Floor 4, Shelf 28 , Side 1, TierNo 5, BayNo 4

 660.15118 MOD (Browse shelf) 1 Available SOExx,07017,03,GR 5000070811

Preface. - List of contributors. - 1. Modeling of process intensification - an introduction and overview. 2. Process intensification - an industrial point of view. - 3. Modeling and simulation of microreactors. - 4. Modeling and simulation of unsteady-state-operated trickle-flow reactors. - 5. Packed-bed membrane reactors. - 6. The focused action of surface tension versus the brute force of turbulence - scaleable microchannel-based process intensification using monoliths. - 7. Chemical reaction model in supercritical fluids in special consideration of reactions in supercritical water. - 8. Ultrasound reactors. - 9. Modeling of simulated moving-bed chromatography. - 10. Modeling of reactive distillation. - 11. Experimental and theoretical explorations of weak and strong-gradient magnetic fields in chemical multiphase process. - Index.