41 |
Influence des aromatiques sur la stabilité thermique des pétroles dans les gisementsLannuzel, Frédéric 05 July 2007 (has links) (PDF)
Cette étude vise à mieux comprendre les réactions mpliquées dans le craquage thermique des huiles en basins sédimentaires. Des pyrolyses d'octane, de toluène et de mélanges octane/toluène ont été effectuées entre 330°C et 450°C et des pressions allant de 1 bar à 700 bar. Le mécanisme radicalaire développé permet de rendre compte de l'influence de la température et de la pression sur la distribution des produits ainsi que sur la conversion jusqu'aux conditions de gisement (200°C, 150-1000 bar). Les pyrolyses du toluène pur et du mélange octane/toluène ont permis de modéliser le rôle inhibiteur des alkylaromatiques sur le craquage des hydrocarbures. Cette étude démontre l'importance des co-réactions et donc de la composition des huiles sur la stabilité thermique des pétroles en gisements.
|
42 |
Étude de la synthèse totale de tétrahydroisoquinoléines naturelles : quinocarcine, Tétrazomine et Lémonomycine. : rapide accés aux α-amidosulfures et leur utilisation en tant que précurseurs de N-acylimines dans la réaction de Friedel-CraftsGeorge, Nicolas 24 November 2011 (has links) (PDF)
La quinocarcine, la tétrazomine et la lémonomycine constituent une sous-famille appartenant à la famille des tétrahydroisquinoléines trisubstituées naturelles. Ce sont des puissants agents cytotoxiques et possèdent de nombreuses activités biologiques telles qu'antitumorales et antibiotiques. Leur complexité structurale, leurs intérêts biologiques ainsi que leur faible rendement d'extraction du milieu naturel font de ces molécules des cibles attrayantes pour les chimistes de synthèse.Ces trois molécules sont constituées d'une tétrahydroisoquinoléine différemment substitué fusionnée avec un diazabicycle[3.2.1]octane commun. Le but de ce projet était de mettre au point une stratégie commune à cette sous-famille et divergente grâce à la synthèse du diazabicyclooctane en premier. Une première stratégie faisant intervenir une aziridine n'a pas permis de construire le bicycle. Cet objectif a été réalisé grâce à une seconde stratégie. Elle repose sur une première cyclisation d'un hémiaminal puis d'une cyclisation par addition nucléophile d'un éther d'énol silylé sur un N-acylimmonium formé in situ au départ d'un N,S-acétal.Parallèlement à cette étude synthétique, nous avons mis au point une réaction multicomposant séquentielle qui permet l'accès rapide et général aux a-amidosulfures, comblant un manque dans la littérature. Ensuite nous avons étudié la réactivité de ces composés en tant que précurseurs simples de N-acylimines en conditions acides douces. Trois conditions réactionnelles, nous ont permis d'accéder à cette objectif : l'utilisation stœchiométrique d'acétate d'argent, catalytique d'acide phosphorique ainsi que le NIS en quantité stœchiométrique et catalytique. Cette dernière réaction est très attrayante. En effet, ce réactif doux et neutre permet l'élimination efficace du thiol formant la N-acylimine puis son activation pour se faire piéger in situ par un nucléophile. Les rendements atteints sont très hauts en moins de 5 minutes.
|
43 |
Experiment and Simulation of Autoignition in Jet Flames and its Relevance to Flame Stabilization and StructureAl-Noman, Saeed M. 06 1900 (has links)
Autoignition characteristics of pre-vaporized iso-octane, primary reference fuels, gasolines, and dimethyl ether (DME) have been investigated experimentally in a coflow with elevated temperature of air. With the coflow air at relatively low initial temperatures below autoignition temperature Tauto, an external ignition source was required to stabilize the flame. Non-autoignited lifted flames had tribrachial edge structures and their liftoff heights correlated well with the jet velocity scaled by the stoichiometric laminar burning velocity, indicating the importance of the edge propagation speed on flame stabilization balanced with local flow velocity. At high initial temperatures over Tauto, the autoignited flames were stabilized without requiring an external ignition source. The autoignited lifted flames exhibited either tribrachial edge structures or Mild combustion behaviors depending on the level of fuel dilution.
For the iso-octane and n-heptane fuels, two distinct transition behaviors were observed in the autoignition regime from a nozzle-attached flame to a lifted tribrachial-edge flame and then a sudden transition to lifted Mild combustion as the jet velocity increased at a certain fuel dilution level. The liftoff data of the autoignited flames with tribrachial edges were analyzed based on calculated ignition delay times for the pre-vaporized fuels. Analysis of the experimental data suggested that ignition delay time may be much less sensitive to initial temperature under atmospheric pressure conditions as compared with predictions. For the gasoline fuels for advanced combustion engines (FACEs), and primary reference fuels (PRFs), autoignited liftoff data were correlated with Research Octane Number and Cetane Number.
For the DME fuel, planar laser-induced fluorescence (PLIF) of formaldehyde (CH2O) and CH* chemiluminescence were visualized qualitatively. In the autoignition regime for both tribrachial structure and mild combustion, formaldehyde were found mainly between the fuel nozzle and the lifted flame edge. On the other hand, they were formed just prior to the flame edge for the non-autoignited lifted flames. The effect of fuel pyrolysis and partial oxidation were found to be important in explaining autoignited liftoff heights, especially in the Mild combustion regime.
Flame structures of autoignited flames were investigated numerically for syngas (CO/H2) and methane fuels. The simulations of syngas fuel accounting for the differential diffusion have been performed by adopting several kinetic mechanisms to test the models ability in predicting the flame behaviors observed previously. The results agreed well with the observed nozzle-attached flame characteristics in case of non-autoignited flames. For autoignited lifted flames in high temperature regime, a unique autoignition behavior can be predicted having HO2 and H2O2 radicals in a broad region between the nozzle and stabilized lifted flame edge.
Autoignition characteristics of laminar nonpremixed methane jet flames in high-
temperature coflow air were studied numerically. Several flame configurations were investigated by varying the initial temperature and fuel mole fraction. Characteristics of chemical kinetics structures for autoignited lifted flames were discussed based on the kinetic structures of homogeneous autoignition and flame propagation of premixed mixtures. Results showed that for autoignited lifted flame with tribrachial structure, a transition from autoignition to flame propagation modes occurs for reasonably stoichiometric mixtures. Characteristics of Mild combustion can be treated as an autoignited lean premixed lifted flame. Transition behavior from Mild combustion to a nozzle-attached flame was also investigated by increasing the fuel mole fraction.
|
44 |
[pt] ESTUDO DA INFLUÊNCIA DE TRATAMENTOS TÉRMICOS E DE ADITIVOS NAS PROPRIEDADES ÓPTICAS DE POLÍMEROS CONJUGADOS UTILIZADOS PARA CÉLULAS SOLARES ORGÂNICAS / [en] STUDY OF THE INFLUENCE OF THERMAL TREATMENTS AND ADDITIVES ON THE OPTICAL PROPERTIES OF CONJUGATED POLYMERS USED FOR ORGANIC SOLAR CELLSLEONARDO GARCIA FERNANDEZ 12 August 2021 (has links)
[pt] Este trabalho teve como objetivo comparar as diferentes influências que
aditivos e tratamentos térmicos têm sobre as propriedades ópticas e elétricas de
filmes finos semicondutores formados por polímeros contendo principalmente
bitiofenos e fluorenos. Os polímeros contendo tiofenos em sequência, como o
poli[(9,9-dioctilfluorenil-2,7-diil)co-bitiofeno] (F8T2), apresentam conformações
cis e trans dependente da posição relativa dos átomos de enxofre, tendo suas
propriedades alteradas de acordo com a proporção entre os domínios de ambas as
conformações em um mesmo filme. Os átomos de iodo presentes no aditivo 1,8-
diiodooctano são tidos como uma possível forma de alterar os agregados nesse
polímero e, consequentemente, alterar as propriedades físicas do filme formado.
Para aumentar o entendimento sobre os átomos diferentes de carbono e hidrogênio
nos aditivos foram estudados os efeitos dos aditivos 1,8-diiodooctano, 1,8-
octanoditiol e octano, que contém dois iodos, dois enxofres e não contém
heteroátomos, respectivamente, em sua composição. Além disso, foi estudada a
introdução do polímero PMMA (polimetilmetacrilato) de forma que alterasse a estrutura interna do filme fino e também foram estudados tratamentos térmicos em diferentes temperaturas, uma vez que parâmetros como tempo de evaporação do solvente também influenciam a formação e as propriedades do filme após seu crescimento. Outro ponto de interesse foi justamente a composição dos polímeros,
para tal, foram estudados, além do F8T2, os polímeros poli(9,9-dioctilfloureno)
(PFO), poli(9,9-dioctilfluoreno-cobenzotiadiazol) (F8BT) e poli(3-hexiltiofeno-2,5-diil) regiorregular (rrP3HT). Eles são formados, respectivamente, por
bitiofenos e fluorenos, apenas fluorenos, fluorenos e benzotiadiazol e apenas
politiofenos. Dessa forma, seria possível isolar as contribuições de cada grupo
isolado e combinados com grupos que permitem ou não a mudança entre
conformações. Os filmes foram depositados em substratos de vidro pela técnica de
spin-coating e a caracterização foi feita com medidas de absorção,
fotoluminescência e FTIR. Quando possível, foram realizadas medidas CELIV e
corrente-tensão de dispositivos fotovoltaicos usando os polímeros como camada doadora de elétrons. Com este trabalho foi possível variar as intensidades dos picos
de absorção e alterar o gap de energia dos polímeros. Destacando a ação do DIO,
observou-se que a conformação cis do F8T2 é maximizada quando se utiliza 1 por cento do aditivo. Além disso, o DIO também aumenta a porcentagem de fase beta do PFO.
Já para o P3HT, foi constatado um aumento no ordenamento do filme. / [en] This work aimed to compare the different influences that additives and heat
treatments have on the properties of semiconductor thin films formed by polymers
containing mainly bitiophenes and fluorenes. Polymers containing thiophenes in
sequence, such as poly[(9,9-dioctylfluorene-2,7-diyl)co-bithiophene] (F8T2), have
cis and trans conformations depending on the relative position of the sulfur atoms,
having their optical and electrical properties altered according to the proportion
between the domains of both conformations in the same film. The iodine atoms
present in the additive 1,8-diiodooctane are considered as a possible way to change
the aggregates in this polymer and, consequently, change the physical properties of
the formed film. To increase the understanding of the atoms other than carbon and
hydrogen in the additives, the effects of the additives 1,8-diiodooctane, 1,8-
octanodithiol and octane, which contain two iodines, two sulfur and do not contain
heteroatoms, respectively, were studied. In addition, the introduction of the PMMA
(polymethylmethacrylate) polymer was studied in order to alter the internal
structure of the thin film and, also, heat treatments at different temperatures were
studied, since parameters such as solvent evaporation time and the available thermal
energy also influence the formation and properties of the film after its growth.
Another point of interest was precisely the composition of the polymers. For this
purpose, in addition to F8T2, the polymers poly(9,9-dioctylflourene) (PFO),
poly(9,9-dioctylfluorene-cobenzothiadiazole) (F8BT) and regioregular poly(3-
hexylthiophene-2,5-diyl) (rrP3HT) were studied. They are formed, respectively, by
bitiophenes and fluorenes, only fluorenes, fluorenes and benzothiadiazole and only
polythiophenes. In this way, it would be possible to isolate the contributions of each
isolated and combined groups that allow or not to change between conformations.
The films were deposited on glass substrates using the spin-coating technique and
the characterization was done via absorption, photoluminescence and FTIR
measurements. When possible, CELIV and current-voltage measurements of
photovoltaic devices were performed using the polymers as an electron donor layer.
With this work it was possible to vary the intensities of the absorption peaks and to
change the energy gap of the polymers. Highlighting the action of DIO, it was
observed that the cis conformation of F8T2 is maximized when 1 percent of the additive is used. In addition, DIO also increases the percentage of beta phase of PFO. For P3HT, on the other hand, there was an increase in the ordering of the film.
|
Page generated in 0.0382 seconds