V
Volker Hessel
Researcher at University of Adelaide
Publications - 616
Citations - 24861
Volker Hessel is an academic researcher from University of Adelaide. The author has contributed to research in topics: Microreactor & Catalysis. The author has an hindex of 68, co-authored 572 publications receiving 21707 citations. Previous affiliations of Volker Hessel include Mainz Institute of Microtechnology & Fraunhofer Society.
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Review of Patent Publications from 1990 to 2010 on Catalytic Coatings on Different Substrates, Including Microstructured Channels: Preparation, Deposition Techniques, Applications
TL;DR: A review of patent publications on preparation, deposition, characterization, and application of the catalytic coatings is given in this paper with view on their application in microstructured reactors for heterogeneous gas-phase processing.
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Solvent Extraction of Metals: Role of Ionic Liquids and Microfluidics
Mahdieh Razi Asrami,Nam Nghiep Tran,Nam Nghiep Tran,Krishna D.P. Nigam,Volker Hessel,Volker Hessel +5 more
TL;DR: The Coiled Flow Inverter (CFI) as discussed by the authors can further intensify the internal recirculation by convection, which is the motor of the advanced mass transfer by liberating Dean forces.
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Homogeneous polymerization: benefits brought by microprocess technologies to the synthesis and production of polymers
TL;DR: In this paper, different polymerization processes for the synthesis of polymers in homogeneous phase comprising some microsystems are reviewed, including microchannel-based and microtubular reactors used for heat-transfer sensitive reactions.
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Scale-up of Process Intensifying Falling Film Microreactors to Pilot Production Scale
Bhanu Kiran Vankayala,Patrick Löb,Volker Hessel,G. Menges,Christian Hofmann,D. Metzke,Ulrich Krtschil,Hans-Joachim Kost +7 more
TL;DR: In this paper, two different prototypes with a more than tenfold larger structured surface area have been developed and realized for the oxidation of an organic compound using oxygen which is closely linked to an industrial relevant reaction and additionally by the absorption of CO2 in an aqueous sodium hydroxide solution.
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Design, scale-out, and operation of a microchannel reactor with a Cu/CeO2-x catalytic coating for preferential CO oxidation
Pavel V. Snytnikov,D. I. Potemkin,Evgeny V. Rebrov,Vladimir A. Sobyanin,Volker Hessel,Volker Hessel,JC Jaap Schouten +6 more
TL;DR: A preferential CO oxidation device consisting of an array of 26 parallel microchannel reactors with each a 5% Cu/CeO 2−x catalytic coating was designed for application with a 100 W e fuel cell system as mentioned in this paper.