Guy Van Baelen scite author profile

Guy Van Baelen

4Publications

27Citation Statements Received

24Citation Statements Given

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Thomas More Kempen

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Technical and economical evaluation of water recycling in the carwash industry with membrane processes

Boussu

Baelen²,

Colen³

et al. 2008

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In the carwash industry, water recycling is necessary to be in accordance with present and upcoming environmental laws. As this is not possible with traditional techniques, membrane processes (like ultrafiltration (UF) and nanofiltration (NF)) are technically and economically evaluated in this study. Concerning the technical part, there needs to be a compromise between a high permeate permeability on the one hand and a high permeate purity on the other hand. Depending on the use of the purified wastewater, ultrafiltration (to recycle wastewater in the main wash cycle) or nanofiltration (to recycle wastewater in the rinsing step) would be the optimal choice. Concerning the financial part, the implementation of membrane processes in the wastewater purification installation is economically feasible, especially when expensive tap water is used as pure water. These positive evaluations imply that membrane processes can be useful to recycle wastewater in the carwash industry, on condition that the right membrane type (with the least membrane fouling) and the right process format (e.g., hybrid process of UF and/or NF with a biological treatment) is selected.

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Separation of ethyl acetate–isooctane mixture by heteroazeotropic batch distillation

Ooms

Vreysen

Baelen

et al. 2014

Chemical Engineering Research and Design

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This paper studies the separation of an ethyl acetate-isooctane mixture by heterogeneous azeotropic distillation in a batch rectifying column. An initial list of 60 candidates was studied but only methanol and acetonitrile were obtained as potential heterogeneous entrainers. These entrainers form a low boiling heterogeneous azeotrope with isooctane. Experimental verification of the miscibility gap with isooctane was performed at 25 • C for each entrainer giving a smaller region for methanol than for acetonitrile. Feasibility of the heterogeneous azeotropic batch distillation was carried out experimentally in a laboratory batch distillation column having 44 theoretical equilibrium stages and using a high reflux ratio. Several distillate fractions were taken as a function of the temperature at the top of the column. For both methanol and acetonitrile, the main fraction was defined by the condensed vapor providing a liquid-liquid split of the isooctane/entrainer heteroazeotrope into the decanter. Ethyl acetate impurity was detected in both decanted phases, but in much lower amount when using acetonitrile as entrainer. The process with acetonitrile also resulted in a shorter operating time and higher purity and recovery yield of isooctane as the main distillate product. Pure ethyl acetate remained into the boiler at the end of each process.

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Industrial process water recycling: Principles and examples

et al. 2005

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REMOVED: Batch Recovery of Acetonitrile/Toluene Mixture by Hybrid Distillation-Pervaporation Process

Ooms¹,

Vandezande

Baelen³

et al. 2012

Procedia Engineering

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Guy Van Baelen

Technical and economical evaluation of water recycling in the carwash industry with membrane processes

Separation of ethyl acetate–isooctane mixture by heteroazeotropic batch distillation

Industrial process water recycling: Principles and examples

REMOVED: Batch Recovery of Acetonitrile/Toluene Mixture by Hybrid Distillation-Pervaporation Process

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