J. J. Pragt scite author profile

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Reactive Dividing-Wall Columns—how to Get More With Less Resources?

Kiss

Pragt

Strien

2009

Chemical Engineering Communications

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Templated Growth of Carbon Nanotubes with Controlled Diameters Using Organic-Organometallic Block Copolymers with Tailored Block Lengths

Roerdink

Pragt

Korczagin

et al. 2007

j nanosci nanotechnol

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Block copolymer thin films fabricated from polystyrene-polyferrocenylsilane (PS-b-PFS) block copolymers on silicon substrates were used as precursors of well-ordered, nanosized growth catalysts for carbon nanotubes (CNTs). The size of the catalytic domains was tuned by changing the molecular weight of the block copolymer, enabling control of the diameter of the CNTs grown from these substrates. CNT growth on catalytic substrates with larger organometallic domain sizes, using acetylene as a carbon source, resulted in enhanced amounts of CNT deposition compared to smaller PFS domains, which exhibited low catalytic activity. The inner and outer diameters of the multi-walled CNTs obtained were typically 8 and 16 nm, respectively, and were not influenced by the catalytic domain sizes. Various annealing strategies in inert or in hydrogen atmosphere were investigated. The use acetylene with an additional hydrogen flow as gas feed resulted in a significant increase in deposition on all PS-b-PFS decorated substrates. Under these conditions, the CNT diameters could be controlled by the catalyst domain sizes, resulting in decreasing diameters with decreasing domain sizes. Multiwalled CNTs with inner and outer diameters of 4 and 7 nm, respectively, and a narrow diameter distribution were obtained.

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Reactive Dividing-Wall Columns - Defying Equilibrium Restrictions

Kiss¹,

Pragt²,

Strien³

2009

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This work presents an integrated reactive-distillation design based on a dividing-wall column (DWC) applied to an industrial case study within AkzoNobel. Remarkably, it is among the first industrial applications of a reactive DWC reported in literature. The benefits of this novel integrated design are the ability to overcome VLE and chemical equilibrium limitations, as well as to separate the main product as high purity side-stream. To solve the problem of a production shift required by market demand changes, we propose an innovative integrated design that combines reaction and separations into one reactive DWC that allows significant savings in capital and operating costs up to 35% and 15%, respectively. Two scenarios are analyzed and the results of the rigorous AspenPlus simulations are provided.

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Enhanced Process for Methanol Production by CO2 Hydrogenation

Kiss

Pragt

Vos

et al. 2016

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J. J. Pragt

Novel efficient process for methanol synthesis by CO 2 hydrogenation

Reactive Dividing-Wall Columns—how to Get More With Less Resources?

Templated Growth of Carbon Nanotubes with Controlled Diameters Using Organic-Organometallic Block Copolymers with Tailored Block Lengths

Reactive Dividing-Wall Columns - Defying Equilibrium Restrictions

Enhanced Process for Methanol Production by CO2 Hydrogenation

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