Maria Isabelle Maiwald scite author profile

Maria Isabelle Maiwald

3Publications

20Citation Statements Received

89Citation Statements Given

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Affiliations

Hamburg University of Technology, Voith (Germany), Norsk Hydro (Germany)

Publications

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Countercurrently Operated Reactive Extractor with an Additively Manufactured Enzyme Carrier Structure

Büscher

Spille

Kracht

et al. 2020

Org. Process Res. Dev.

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Precisely designed structures inserted in hybrid reactors can be used to control multiphase hydrodynamics and to act as a catalyst carrier simultaneously. While numerical simulations with computational fluid dynamics have limitations regarding the complex interactions in multiphase flows, performing experiments using rapid prototyping (RP) offers the possibility of a fast fabrication and verification of tailor-made structures for specific flow characteristics, efficient mass transport, and high conversion rates. In the presented work, the development of a countercurrently operated additively manufactured reactor for the decarboxylation of ferulic acid to 2-methoxy-4-vinylphenol (MVP) along in situ extraction with n-heptane is shown. Here, the use and optimization of periodic open-cell structures (POCSs) as a carrier for the enzyme phenolic acid decarboxylase and a distributor for the extraction phase are targeted. By RP of transparent structures and their examination concerning the induced flow characteristics of colored heptane, a structure could be optimized for the specific reaction system. The additive manufacturing of POCSs and their application in a hybrid countercurrently operated reactor enabled the conversion of FA and a low concentration of the competitively inhibiting product MVP in the reaction phase via efficient in situ extraction via the dispersed heptane phase.

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Influence of Hydraulic Design on Stability and on Pressure Pulsations in Francis Turbines at Overload, Part Load and Deep Part Load based on Numerical Simulations and Experimental Model Test Results

Magnoli

Maiwald

2014

IOP Conf. Ser.: Earth Environ. Sci.

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Numerical and experimental investigation of the runner channel vortex in Francis turbines regarding its dynamic flow characteristics and its influence on pressure oscillations

Magnoli

Anciger

Maiwald

2019

IOP Conf. Ser.: Earth Environ. Sci.

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