Fouling in microstructured devices: a review

Schoenitz, M.; Grundemann, Laura; Augustin, Wolfgang; Scholl, Stephan

doi:10.1039/c4cc07849g

Cited by 152 publications

(106 citation statements)

References 80 publications

(174 reference statements)

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“…[48][49][50] The formation of deposit during polymerization may induce variations in polymer production and strong increase of pressure drop. We investigated the formation of deposit within the reactor after 6 to 8 h running using experimental conditions 1, 3, and 4 (Table 4 ).…”

Section: Stability Of Reactor and Deposit Formationmentioning

confidence: 99%

Continuous Pilot‐Scale Tubular Reactor for Acrylic Acid Polymerization in Solution Designed Using Lab‐Scale Rheo‐Raman data

Chevrel

Hoppe

Meimaroglou

et al. 2016

Macro Reaction Engineering

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A continuous pilot‐scale tubular reactor is designed for the polymerization of acrylic acid in aqueous solution. The reactor is equipped with CSE‐X static mixers from Fluitec which strongly increase heat and mass transfer despite laminar flow. A mathematical model of the reactor is proposed assuming that it is a perfect plug‐flow reactor and using kinetic and rheological equations previously established using a lab‐scale rheo‐Raman device. Calculated values of temperature and polymer concentration profile along the reactor as well as outlet average molar masses and viscosity are in good agreement with experimental results. Provided that the outlet viscosity of reaction medium does not exceed 0.5 Pa s, no reactor fouling occurred. On the contrary, fouling is detected after 6 to 8 h running with higher viscosities. This work is the first demonstration of applicability of CSE‐X static mixer elements in a continuous polymerization process producing high molar mass water‐soluble polymer. In addition, successful scale‐up of polymerization reactor is reported up to pilot‐scale as well as batch to continuous transposition, only on the basis of lab‐scale rheo‐Raman data. The interest of rheo‐Raman device for the acquisition of primary data is established.

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Section: Stability Of Reactor and Deposit Formationmentioning

confidence: 99%

Continuous Pilot‐Scale Tubular Reactor for Acrylic Acid Polymerization in Solution Designed Using Lab‐Scale Rheo‐Raman data

Chevrel

Hoppe

Meimaroglou

et al. 2016

Macro Reaction Engineering

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“…Various mechanisms that lead to fouling and clogging have been reviewed 1–4. However, they have not addressed the influence of the micromixer design on its robustness against clogging.…”

Section: Introductionmentioning

confidence: 99%

Comparative Study of Clogging in Valve and Cascade Mixers

et al. 2016

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A cascade mixer and a valve mixer were applied for the precipitation of CaCO 3 . This model reaction has been used for benchmarking both mixer types with respect to their robustness against fouling. The valve mixer was found to be much less susceptible to fouling and clogging. Pressure changes during precipitation in both types of mixers differed significantly. This parameter can be easily used for identification of clogging in the valve mixer and applied as input in clean-in-place (CIP) procedures. The pressure trend in the cascade mixer is quite complex and, therefore, difficult to apply for CIP. Ultrasonic treatment has been evaluated as a measure to prevent clogging.

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“…12 This technology is continuously gaining ground in a broad range of applications such as in biotechnology, 13,14 uid mechanics [15][16][17] and chemical processes, where it has paved the way to make use of devices able to miniaturize reactive ows. 23,25,[35][36][37] Clogging is indeed one of the main problems in continuous ow, especially in microreactors, and poses serious challenges to progress in this area. One of the main problems is clogging due solid precipitation and aggregation.…”

Section: Introductionmentioning

confidence: 99%

A microfluidic approach for flexible and efficient operation of a cross-coupling reactive flow

et al. 2015

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In this work, a flexible and efficient flow microreactor has been developed for the synthesis of an aromatic amine via a Buchwald-Hartwig reaction, a key bond-forming reaction in the synthesis of a wide range of naturally-occurring and pharmaceutically active targets. The microreactor, coupled with a highly active palladium N-heterocyclic carbene (NHC) catalyst, enabled the full conversion of the reagents within twenty minutes, even at very low catalyst concentrations. In addition to the classical two-feed design, a novel, more flexible four-feed flow system was developed with a configuration optimised to avoid clogging, which is one of the main problems in microreactors and in continuous flow reactive systems in general. We report the effect of flow rate, temperature and catalyst loading on conversion degree. In particular, a slight increase in temperature allowed faster conversion even at low catalyst loadings, likely due to the highly efficient heat transfer provided by the confined microreactor geometry

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Fouling in microstructured devices: a review

Cited by 152 publications

References 80 publications

Continuous Pilot‐Scale Tubular Reactor for Acrylic Acid Polymerization in Solution Designed Using Lab‐Scale Rheo‐Raman data

Continuous Pilot‐Scale Tubular Reactor for Acrylic Acid Polymerization in Solution Designed Using Lab‐Scale Rheo‐Raman data

Comparative Study of Clogging in Valve and Cascade Mixers

A microfluidic approach for flexible and efficient operation of a cross-coupling reactive flow

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