Michael Schlüter,
Dieter Bothe,
Sonja Herres-Pawlis,
Ulrich Nieken
e.a.
Springer International Publishing
e druk, 2022
9783030723637
Reactive Bubbly Flows
Final Report of the DFG Priority Program 1740
Specificaties
Paperback, blz.
|
Engels
Springer International Publishing |
e druk, 2022
ISBN13: 9783030723637
Rubricering
Onderdeel van serie
Fluid Mechanics and Its Applications
Levertijd ongeveer 8 werkdagen
Samenvatting
This book presents experimental and numerical methods that have been developed during six years of targeted research within the DFG priority program SPP 1740, elucidating the interaction between hydrodynamics, mass transfer and transport as well as chemical reactions in bubbly flows. A special feature of this book is its focus on an interdisciplinary research approach with contributions from chemistry, mathematics and engineering sciences, providing enhanced or novel experimental methods, models and numerical simulations. This book provides fundamental knowledge to students about the current state of knowledge regarding transport processes in reactive bubbly flows as well as to scientists, emphasizing pressing research questions and further current demands for fundamental research. Engineers from the chemical industries will get valuable insights into relevant gas-liquid processes and benefit from recommendations concerning the design of gas-liquid reactors and laboratory experiments for studying the performance of gas-liquid reactions in their own lab.
Specificaties
ISBN13:9783030723637
Taal:Engels
Bindwijze:paperback
Uitgever:Springer International Publishing
Inhoudsopgave
1. Introduction<div>2. Description of the main topics</div><div>2.1 Chemical Systems for the investigation of Reactive Bubbly Flows:</div><div>2.1.1 Laurini, L.; Hoffmann, A.; Herres-Pawlis, S.: Control of the formation and</div><div>reaction of copper-oxygen/nitrogen monoxide adduct complexes in multiphase</div><div>streams</div><div>2.1.2. Aas, B.; Oßberger, M.; Klüfers, P.: In-situ characterizable nitrosyl-iron</div><div>complexes with controllable reactivity in multiphase reaction media</div><div>2.1.3 Miska, A.; Schindler, S.: Formation, reactivity tuning and kinetic</div><div>investigations of iron "dioxygen" intermediate complexes and derivatives in</div><div>multiphase flow reactions</div><div>2.2. Experimental Methods for reactive bubbly flows:</div><div>2.2.1 Haase, K.; Kähler, C.: Analysis of mixing und mass transport processes in</div><div>bubble swarms under the influence of bubble-induced turbulence</div><div>2.2.2 Kipping, R., Hampel, U.: Experimental studies on the hydrodynamics, mass</div><div>transfer and reaction in bubble swarms with ultrafast X-ray tomography and local</div><div>probes</div><div>2.2.3 Kemper, P.; Thöming, J.: Spatially resolved experimental analysis and</div><div>modeling of mass transfer from rising gas bubbles under influence of swarm</div><div>turbulence with superimposed chemical reaction</div><div>2.3.4 Guhathakurta, J.; Grottke, D.; Simon, S.; Rinke. G.: Investigation of the</div><div>influence of transport processes on chemical reactions in bubble flows using spaceresolved</div><div>in-situ analytics and simultaneous characterization of bubble dynamics in</div><div>real-time</div><div>2.3 Experiments in Reactive Bubbly Flows</div><div>2.3.1 Gast, S.; Nieken, U.: Exemplary determination and verification of kinetics of</div><div>a gas-liquid reaction Simulation und Modelling</div><div>2.3.2 Merker, D.; Kraume, M.: Mass transfer around gas bubbles in reacting liquids</div><div>2.3.3 Kexel, F.; Kastens, S.; Timmermann, J.; Schlüter, M.: Experimental</div><div>investigation of reactive bubble flows-influence of boundary layer dynamics on</div><div>mass transfer and chemical reactions</div><div>2.3.4 Ziegenbalg, D.: Photochemical reactions as switchable tools for the</div><div>fundamental investigation of mass transfer processes in gas-liquid-flows</div><div>2.3.5 Zähringer, K.: Experimental characterization of gas-liquid transport processes</div><div>in a reaction bubble column using a neuralization reaction</div><div>2.3.6 Brücker, C.: Combined volumetric PIV-LIF measurements of the correlation</div><div>between bubble cluster dynamics and mixing in a co-moving frame of a</div><div>stable/unstable bubble plume</div><div>2.4 Numerical Methods for Reactive Bubbly Flows</div><div>2.4.1 Weiner, A.; Bothe, D.: Direct numerical simulation of multi-physics reactive</div><div>mass transfer at single multiple bubbles</div>2.4.2 Hillenbrand, D.; Marschall H.: Development and application of a direct<div>numerical method for reactive transport processes in bubble systems</div><div>2.4.3 Muniz, M.; Sommerfeld, M.: Modelling the influence of bubble dynamics on</div><div>motion, mass transfer and chemical reaction</div><div>2.4.4 Mierka, O.; Turek, S.: Numerical simulation techniques for the efficient and</div><div>accurate treatment of local fluidic transport processes together with chemical</div><div>reactions</div><div>2.4.5 Rzehak, R.: Euler-Euler-Modellierung reaktiver Strömung in Blasensäulen</div><div>2.4.6 Hlawitschka, M.: Multiscale investigations of reactive bubble flows …</div><div>3. Determination of kinetics for reactive bubbly flows using superfocus mixers</div><div>(Herres-Pawlis, Rinke, Simon, Turek, Schlüter)</div><div>4. Visualization and quantitative analysis of consecutive reactions in Taylor bubble</div><div>flows (Schlüter, Herres-Pawlis, Klüfers, Turek)</div><div>5. Chemical reactions on freely ascending single bubbles (Bothe, Kraume, Marschall,</div><div>Herres-Pawlis, Klüfers, Schindler, Schlüter)</div><div>6. Chemical reactions in bubbly flows (Hampel, Tuttlies, Kähler, Simon, Sommerfeld,</div><div>Hlawitschka, Rzehak)</div><div>7. Investigation of reactive bubbly flows in technical apparatuses (Nieken, Herres-</div><div>Pawlis, Schlüter)</div><div>8. Further demand in fundamental research (Schlüter, Herres-Pawlis, Bothe, Nieken)</div>