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Modeling of process intensification / edited by Frerich Johannes Keil

Contributor(s): Publication details: Weinheim : Wiley-VCH, 2007Description: xv, 405 p. : ill. ; 25 cmISBN:
  • 9783527311439 (hbk.)
  • 3527311432 (hbk.)
Subject(s): DDC classification:
  • 660.15118 MOD
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.
Holdings
Cover image Item type Current library Home library Collection Shelving location Shelf location Call number Materials specified Vol info Copy number Status Notes Date due Barcode Item holds Item hold queue priority Course reserves
Main Collection Taylor's Library-TU

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

660.15118 MOD (Browse shelf(Opens below)) 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.