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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Transalkylation of toluene with 1,2,4-trimethylbenzene over zeolite catalysts

Almulla, Faisal January 2018 (has links)
Benzene, toluene, and xylene are three basic raw materials for the production of most aromatic derivatives such as polyesters, plastics and detergents. Xylenes (p-, m- and o-) have the greatest market demand with an increasing annual rate of 6%. Owing to the availability of surplus toluene and low value of C9 aromatics, the transalkylation process is aimed at the production of more valued products, such as xylenes. Catalyst deactivation is a key challenge in transalkylation process. Using industrially relevant operating parameters, the transalkylation of 1,2,4-trimethylbenzene (TMB) with toluene was studied. The effect of zeolite structure and acidity, increased reaction pressure and temperature, and very low levels of platinum (Pt) impregnation has been investigated over both H-form and Pt-loaded zeolites: Beta, Mordenite (MOR), and Y. A fixed bed reactor was used at WHSV of 5 h-1, 400 oC, and a 50:50 wt. % toluene:TMB ratio with the order of activity after 50 h time-on-stream (TOS) of Y > Beta >> MOR at 1 bar. At elevated pressure (10 bar), all catalysts showed better performance with significant improvement in MOR as pore blockage was reduced and the order of activity was Beta > MOR > Y. With varying the Si/Al ratio for zeolites Beta (Si/Al = 12.5, 75 and 150) and Y (Si/Al = 2.6, 6, 15 and 30), the highest stability and xylenes yield were achieved over zeolite Beta with lowest Si/Al ratio at 41 wt. % conversion and 25 wt. % xylenes yield. In contrast, zeolites Y with Si/Al ratio of 2.6 showed the highest deactivation rate, whereas over Y zeolites with Si/Al = 6-30, the conversion was between 25-30 wt. % and xylenes yield around 11 wt. % after 50 h TOS. Incorporation of Pt (0.08 wt. %) further improved the activity of all catalysts with the highest conversion after 50 h TOS over Beta (62 wt. %) where Beta and MOR yielded similar levels of xylenes (40 wt. %). All catalysts were further optimized by reducing Pt levels whilst maintaining the desired stability and highest xylenes yield. In order to further develop a cost-effective and eco-friendly catalyst, the addition of alumina binder to Pt-Beta and the possibility of simplified regeneration of Beta/Pt-Beta catalyst were investigated. Firstly, the alumina binder reduced the conversion and xylenes yield, however, this reduction was small up to 40 wt. % added alumina binder (where xylenes yield only dropped to 35 wt. %). Secondly, the regeneration process was carried out using H2 only and up to four cycles (30 h TOS per cycle). The Pt-Beta catalyst found to be stable and the activity was fully restored by a hydrogenation process at 500 oC. However, the activity of Beta dropped gradually after each cycle suggesting that the H2 alone at 500 oC was insufficient in removing coke precursors. The drop in activity was attributed to the disappearance of Brà ̧nsted acid sites over the spent Beta catalyst due to the growth of coke molecules trapped in cavities leading to highly polyaromatic molecules blocking those active sites.
2

Etudes des impacts de la réactivité en phase aqueuse atmosphérique sur la formation et le vieillissement des Aérosols Organiques Secondaires sous conditions simulées

Liu, Yao 25 February 2011 (has links)
Cette étude se focalise sur les impacts de la réactivité en phase aqueuse de la méthacroléïne et de la méthyl vinyl cétone sur la formation des nouveaux aérosols organiques secondaires (AOS), et les impacts de la réactivité en phase aqueuse sur le vieillissement des AOS formés par l’isoprène, α-pinène et 1,3,5-triméthylbenzène en phase gazeuse. Les études de la réactivité en phase aqueuse ont été étudiées vis-à-vis des radicaux OH. Dans le but d’identifier et quantifier les produits d’oxydation des différents précurseurs d’intérêt, les échantillons en phase aqueuse ont été analysés par différents systèmes analytiques. Les résultats montrent clairement la formation de petits composés primaires et secondaires qui ont été expliqués par les mécanismes réactionnels. On a observé également la formation de composés à haute masse moléculaire par rapport à leurs précurseurs. Ces produits ont été supposés être très peu volatils et pourraient induire la formation des AOS lors de l’évaporation de l’eau. Leur capacité à former des AOS a été montrée expérimentalement par les expériences de nébulisation des solutions aqueuses à différents temps de réaction. Les résultats montrent qu’au moins une part de ces produits à haute masse moléculaire reste en phase particulaire lors de l’évaporation de l’eau, et contribue à la formation des AOS. L’ensemble de ces résultats met en évidence le fait que la réactivité en phase aqueuse atmosphérique peut induire des effets importants sur la formation et le vieillissement des AOS atmosphériques, qui peut induire une modification des propriétés physico-chimiques des aérosols. / This work focused on the impacts of aqueous phase OH-oxidation of methacrolein, methyl vinyl ketone on the SOA formation, and impacts of aqueous phase OH-oxidation on aging of SOA that are formed by isoprene, -pinene and 1,3,5-trimethylbenzene in gas phase. The chemical characterization of aqueous phase was performed by different analytical techniques. The results show the formation of small primary and secondary reaction products that were explained by suitable chemical reaction mechanisms. The formation of oligomers with high molecular mass (compared with their precursors) has also been observed during the OH-oxidation. These oligomers might be low volatile compounds that induce the formation of SOA during water evaporation. Their capacity to form SOA was experimentally demonstrated by nebulizing the aqueous phase solution at different reaction times. The results show that at least a part of oligomers remains in the particle phase during water evaporation, and contributes to the SOA formation. All of these results highlight that aqueous phase reactivity could induce important effects on the formation and aging of atmospheric SOA, which can induce modification of physico-chemical properties of SOA.
3

Processus photophysiques de molécules organiques fluorescentes et du kérosène applications aux foyers de combustion : applications aux foyers de combustion / Photophysical processes of organic fluorescent molecules and kerosene : applications to combustion engines

Rossow, Björn 27 September 2011 (has links)
La métrologie laser basée sur l’analyse de la fluorescence de traceurs moléculaires est devenue l’un des outils clefs pour l’étude expérimentale de la dynamique des fluides réactifs. Une étude spectroscopique des propriétés photophysiques de fluorescence dans le domaine spectral UV-visible de plusieurs molécules fluorescentes appartenant aux cétones aliphatiques et aux aromatiques mono- et bicycliques a permis d’approfondir la compréhension de l’influence de la température, de la pression et de la concentration d’oxygène sur leur fluorescence. Les résultats expérimentaux obtenus ont ensuite permis le développement d’un modèle de simulation du rendement de fluorescence pour les espèces aromatiques (naphtalène et toluène), qui fournit des résultats très proches de ceux mesurés.De ces résultats, le développement de la technique d’imagerie de fluorescence (PLIF) sur la phase vapeur d’un carburant multi-composant a conduit à étendre cette analyse spectrale de fluorescence au cas du kérosène (Jet A-1). La comparaison entre les propriétés de fluorescence du kérosène et des traceurs aromatiques étudiés a notamment permis d’établir une stratégie de mesure de la concentration de la phase vapeur du kérosène dans des environnements où la teneur en oxygène est variable. Les signaux de fluorescence provenant des espèces mono- et di-aromatiques contenues dans le kérosène soulignent des évolutions différentes avec les conditions de température et teneur en oxygène. L’utilisation de filtres optiques appropriés associés à deux caméras ICCD permet alors une mesure bidimensionnelle de la température et de la concentration de kérosène en phase vapeur. La thèse débouche finalement sur l’application de cette technique PLIF-kérosène en combinaison avec la technique PLIF du radical OH en sortie d’un système d’injection industriel multi-point de nouvelle génération intégré dans une chambre de combustion haute pression. / Planar laser-induced fluorescence (PLIF) diagnostic based on the optical excitation of fluorescence tracers has become a key tool for the experimental study of fluid dynamics in reactive flows. A spectroscopic fluorescence study of several organic molecules from aliphatic ketones and mono- and bi-cyclic aromatics in gas-phase was performed in a high-pressure high temperature optical cell. The experimental measurements allowed the understanding of the influence of temperature, pressure and oxygen concentration on the photophysics of these molecules in the UV/visible domain. These results were then used to successfully develop a model of fluorescence yield of the naphthalene and toluene aromatic molecules permitting the simulation of the fluorescence signals with temperature, pressure and species composition in large domains of temperature and pressure.This study has been extended to the case of a multi-component aeronautical fuel (kerosene – jet A1) containing natural aromatics. The comparison of the spectroscopic data recorded in the optical cell to those of the aromatic tracers initially probed has then permitted the definition of a kerosene-PLIF excitation/detection strategy for kerosene vapour concentration measurements in reactive gaseous flowfield containing variable oxygen concentration. Fluorescence signals from mono- and di-aromatic species in kerosene highlight significant differences in evolution with temperature and oxygen concentration. With appropriate optical filters applied to two ICCD cameras, the two-dimensional instantaneous distribution of temperature and concentration of kerosene vapour is then possible to measure in reactive flows. Finally, the kerosene-PLIF diagnostic has been applied at the exit of an innovative multi-point aeronautical injection system integrated to high-pressure kerosene/air combustor test rig. The kerosene-PLIF, combined with the radical OH-PLIF confirmed their implementation in realistic high-pressure flowfields and delivered experimental fruitful experimental information on the effect of the fuel/air mixing on the flame structure in the combustion chamber.

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