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Development of an Aerated High-Pressure Reactor for Biotechnological Applications (Volume 16) (English shop)
Daniel Niehaus (Author)Preview
Extract, PDF (19 MB)
Table of Contents, PDF (52 KB)
This work presents the development and characterizati on of an aerated high-pressure
reactor for biotechnological applicati ons. Enzymati c oxidati on reacti ons are investi -
gated at pressures up to 15 MPa with the aim of overcoming oxygen mass transfer
limitati ons. Opti cal oxygen sensors are employed for reliable online measurements
under high-pressure conditi ons, and gas–liquid mass transfer is experimentally analyzed.
Based on the results, a scalable reactor concept for intensifi ed biotechnological
processes is proposed.
| ISBN-13 (Hard Copy) | 9783689524326 |
| ISBN-13 (eBook) | 9783689524333 |
| DOI | 10.61061/ISBN_9783689524326 |
| Final Book Format | B5 |
| Language | English |
| Page Number | 130 |
| Lamination of Cover | matt |
| Edition | 1. |
| Book Series | Berichte aus dem Institut für Mehrphasenströmungen |
| Volume | 16 |
| Publication Place | Göttingen |
| Place of Dissertation | Hamburg |
| Publication Date | 2026-01-12 |
| General Categorization | Dissertation |
| Departments |
Industrial chemistry and chemical engineering
Engineering Allgemeine Verfahrenstechnik |
| Keywords | High-Pressure, Aeration, Biotechnology, Oxygen Sensors, Multiphase Flows, Enyzmatic Reactions, Reactor Design Multiphase flows, High-pressure bioreactor, Aerated reactor systems, Biocatalytic oxidation, Enzymatic reactions under pressure, Process intensification, Gas–liquid mass transfer, Volumetric mass transfer coefficient (kLa), Bubble column reactor, High-pressure bubble dynamics, Bubble size distribution, Gas hold-up, Interfacial area, Hydrodynamics under pressure, Oxygen solubility, Oxygen mass transfer limitation, Dissolved oxygen measurement, Optical oxygen sensors, Fluorescence quenching, Optical sensor calibration, High-pressure sensor technology, Online process monitoring, Enzyme immobilization, Glucose oxidase, Enzyme kinetics, Multiphase reactor engineering, High-pressure batch reactor, Laboratory-scale reactor design, Reactor characterization, Pressure effects on enzymes, Oxygen availability, Reaction monitoring, Mass transport limitations, High-pressure biotechnology, Jet loop reactor, Reactor scale-up, Sustainable chemical processing, Green chemistry, Biotechnological process design, Advanced reactor concepts Mehrphasenströmungen, Hochdruckbioreaktor, Begaste Reaktorsysteme, Biokatalytische Oxidation, Enzymatische Reaktionen unter Druck, Prozessintensivierung, Gas-Flüssig-Stoffübergang, Volumenspezifischer Stoffübergangskoeffizient (kLa), Blasensäulenreaktor, Hochdruck-Blasendynamik, Blasengrößenverteilung, Gasgehalt, Phasengrenzfläche, Hydrodynamik unter Druck, Sauerstofflöslichkeit, Sauerstoff-Stofftransportlimitierung, Messung der gelösten Sauerstoffkonzentration, Optische Sauerstoffsensoren, Fluoreszenzlöschung, Kalibrierung optischer Sensoren, Hochdruck-Sensortechnik, Online-Prozessüberwachung, Enzymimmobilisierung, Glucoseoxidase, Enzymkinetik, Mehrphasenreaktortechnik, Hochdruck-Batchreaktor, Reaktorauslegung im Labormaßstab, Reaktorcharakterisierung, Druckeinfluss auf Enzyme, Sauerstoffverfügbarkeit, Reaktionsüberwachung, Stofftransportlimitierungen, Hochdruck-Biotechnologie, Treibstrahlschlaufenreaktor, Reaktorskalierung, Nachhaltige chemische Verfahrenstechnik, Grüne Chemie, Biotechnologische Prozessauslegung, Fortschrittliche Reaktorkonzepte |
