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DFT-based microkinetic modeling of ethanol dehydration in H-ZSM-5
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- PhD Thesis
- open access
Bioethanol conversion to hydrocarbons : from laboratory to industrial scale
(2016) -
Insights into the reaction mechanism of ethanol conversion into hydrocarbons on H-ZSM-5
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- Journal Article
- A1
- open access
Information-driven catalyst design based on high-throughput intrinsic kinetics
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Ethanol conversion to hydrocarbons on HZSM-5: reaction Mechanism Elucidation Via Steady State and Transient Experiments
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Fuel me up!
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Studie van furfuralomzetting op zure en basische katalysatoren
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Enhancing catalyst development by intrinsic kinetics screening and modeling
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Unraveling the mechanism of bioethanol conversion to chemical building blocks via experiments and kinetic modeling
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Unraveling the reaction mechanism of bioethanol conversion to hydrocarbons on H-ZSM-5
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Information driven material design and its analysis requirements (Invited Lecture)
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Ethanol to higher hydrocarbons over Ni, Ga, Fe-modified ZSM-5: effect of metal content
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Assessment of different zeolites in butanol dehydration
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Fuel me up!
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Clean pool water by 'combined chlorine' adsorption
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Ethanol dehydration: from ab initio to industrial reactor simulation
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Assesment of different zeolites in butanol dehydration
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Microkinetic modeling of ethanol conversion to hydrocarbons on HZSM-5
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Catalytic upgrading of bioethanol to hydrocarbons on modified HZSM-5 catalysts