Fondements de la déshydrogénation partielle : étude théorique et expérimentale sur un nouveau combustible Méthode de traitement pour générer de l'hydrogène à partir de Jet Fuel / Fundamentals of Partial Dehydrogenation : Theoretical and Experimental Investigation on a New Fuel Processing Method to Generate Hydrogen from Jet Fuel

Liew, Kan Ern

14 December 2011

L'un des objectifs de l'industrie aéronautique est, aujourd'hui, de fournir une flotte aérienne plus efficace et plus respectueuse de l'environnement. C'est dans ce contexte qu'une nouvelle génération d'avions dit plus « électrifiés » (MEA, More Electrified Aircraft) est développée. Dans cette optique, l'utilisation multifonctionnelle d'une pile à combustible multifonctionnelle dans l'aéronef permettrait de réduire et de simplifier le nombre de systèmes embarqués. Toutefois l'intégration d'une pile à combustible à l'intérieur d'un avion pose un problème majeur :l'approvisionnement en hydrogène. Pour surmonter cet obstacle, la génération d'hydrogène à bord de l'avion semble être une solution appropriée étant donné la possibilité de produire le combustible à partir du kérosène JET-A1. Les technologies de reformage classique d'hydrocarbures comme le steam reforming, l'oxydation partielle et le reformage autothermique ne sont pas réalisables à bord d'un avion. C'est pourquoi un nouveau concept de génération d'hydrogène, à bord de l'aéronef, a été développé dans ce travail : La déshydrogénation partielle (PdH, PartialDeshydrogenation) du kérozène. Le kérosène modifié par la déshydrogénation est alors réinjecté dans le pool de carburant. L'objectif d'Airbus concernant ses futurs avions est d'embarquer un système de production d'hydrogène avec une capacité volumétrique de 80 gL-1 et une production d'hydrogène de 7.5 kg h-1 pour alimenter une pile à combustible d'une puissance de 125 KW. Dans ce projet, la cible à atteindre pour l'unité de production est : 1000 NLH2kgcat-1h-1 d'hydrogène avec une pureté supérieure à 98 % et une durée de vie de 100 heures.Ce travail s'intéresse à la faisabilité du concept PDh à partir d'études théoriques et expérimentales. Les études théoriques ont pour but de répondre aux questions fondamentales telles que la possibilité de déshydrogéner un hydrocarbure à basse température, la nature des espèces hydrocarbonées dans le carburant et sa pression de vapeur, la température idéale assurant le meilleur compromis entre la production d'hydrogène et la formation de coke qui désactive le catalyseur. Les études expérimentales ont été conduites à la fois à partir de catalyseurs d'hydrogénation-déshydrogénation commerciaux et à partir de catalyseurs optimisés pour la réaction PDh, préparés en laboratoire. A la lumière de ce travail, le matériau présentant les meilleures performances est un catalyseur bimétallique à base de platine et d'étain supporté sur l'alumine-g. Les résultats des différentes études expérimentales sont positifs et montrent qu'à basse température (350 °C) et P = 10 bar, la production d'hydrogène est de 435.3 NLH2kgcat-1h-1 avec une pureté supérieure à 98 % et avec une durée de vie extrapolée à 21.7 h. A haute température (450 °C) et P = 10 bar la pureté du gaz chute à 36.3% mais la production d'hydrogène de 1157.05 NLH2kgcat-1h-1, pour une durée de vie de21.7 h, est plus élevée que la cible fixée. Les courtes durées de vie observées dans les deux conditions d'expérience sont attribuées au dépôt de coke sur le catalyseur et à la présence de soufre au sein du kérosène.Toutefois ces travaux ont permis de montrer la pertinence et la faisabilité du concept PDh même si des recherches complémentaires demeurent nécessaires pour une application embarquée. / The aviation industry is in support to bring greener and more efficient aircraft into the skies, as new generation of more electrified aircraft (MEA) are being developed. One technology on this roadmap is to implement a fuel cell on-board an aircraft, which has a “multi-functional” approach and can reduce many on-board systems & simplify operations for an aircraft. However, the implementation of a PEMFC on-board has one drawback – the supply of hydrogen. On-board hydrogen generation poses certain advantageous as there is already a hydrogen-rich material on all aircrafts, aviation fuel Kerosene Jet A-1. However, conventional fuel reforming technologies such as steam reforming, partial oxidation (thermal or catalytic) and autothermal reforming are not feasible for aircraft application. Therefore, a novel hydrogen generation concept was developed in this work that is geared towards on-board operation called Partial Dehydrogenation (PDh). For future aircraft, Airbus is aiming to have a hydrogen delivery system with a volumetric capacity of ca. 80 g L--1, delivering 7.5 kg hr-1 of hydrogen to power a 125 kWe PEMFC on-board. However to nurture this new hydrogen generation concept, milestones were set to focus the development which is limited to 1000 NLH2 kgcat-1 hr-1 with >98 % pure hydrogen with a lifetime of 100 hours. This work investigates the feasibility of the concept of PDh, from theoretical studies to experimental investigations, paving the way to appraise the discoveries so far for aircraft applicability. Theoretical studies were aimed at answering fundamental questions such as the potential of low temperature dehydrogenation, hydrogen availability from Kerosene Jet A-1, hydrocarbon species within the fuel, the vapour pressure of such a complex fuel, and the ideal temperature range to operate for hydrogen liberation with limit coke formation. Experimental investigations were performed with commercial hydrogenation-dehydrogenation catalysts, as well as experimental catalysts designed for the PDh process. In which the best catalyst found thus far is a bimetallic Tin-Platinum catalyst on ã-alumina. The overall findings of the experimental investigation were positive and can be summed up in two different stages of development. At low temperature of 350 °C at 10 bar, hydrogen produced was at 435.3 NLH2 kgcat-1 hr-1, hydrogen purity exceeding 98 % were obtained but with an extrapolated lifetime of 21.7 hours. At higher temperature of 450 °C at 10 bar, hydrogen purity dropped to 36.3 % but exceeded the activity goal with 1157.05 NLH2 kgcat-1 hr-1, however, the lifetime was still extrapolated to be in the region of 21.7 hours. Coke deposition and the influence of sulphur can be explained by the short lifetime found within the experiments. Nevertheless, the novel hydrogen production concept PDh has been showed to be possible, but further research and development is required to achieve on-board applicability.

Generation de l'hydrogene

Pile à combustible

Kerosene Jet A-1

Deshydrogenation catalytique

Hydrogen Generation

Kerosene Jet A-1

Catalytic Dehydrogenation

Fuell Cells

Materiales basados en especies de Pd soportadas sobre matrices sólidas como catalizadores eficientes para reacciones de interés en química fina

Arango Daza, Juan Camilo

03 January 2024

[ES] La presente tesis doctoral se basa en la síntesis, caracterización y uso de catalizadores basados en especies de Pd soportadas sobre matrices sólidas en reacciones de interés en química fina. En general, se ha pretendido obtener catalizadores multifuncionales, estables y reutilizables que se puedan separar fácilmente de la mezcla de reacción y que contribuyan a desarrollar protocolos más sostenibles que den lugar a compuestos orgánicos de interés. En primer lugar, el material [Pd/Al2O3], constituido por nanoagregados de Pd(0) de un tamaño medio de 2.8 nm y soportados sobre una matriz de tipo ¿-Al2O3 con elevada densidad de sitios ácidos, ha demostrado ser altamente activo y eficiente en la ciclación deshidrogenativa entre ureas y 1,2-dioles para la síntesis de imidazol-2-onas. Al utilizar ureas y 1,2-dioles desactivados, la cooperatividad Pd-Zn ha demostrado ser imprescindible para el éxito del proceso, obteniendo los mejores resultados al emplear el sistema de [Pd/Al2O3]-ZnO. Ambos materiales, [Pd/Al2O3] y [Pd/Al2O3]-ZnO, han demostrado ser reusables y estables bajo las condiciones de reacción al no presentar problemas de lixiviación. Además, este protocolo catalítico ha permitido obtener hasta 28 imidazol-2-onas con buenos resultados, demostrando su amplio potencial sintético. Por otra parte, el nanomaterial [Pd(0.75%)/Mg3Al-LDH]-300(D), constituido por nanopartículas de Pd(0) de un tamaño medio de 2.8 nm y soportado sobre una matriz básica de tipo dh-LDH, ha demostrado ser altamente activo para mediar la síntesis de propiolamidas mediante la aminocarbonilación oxidativa entre alquinos terminales y aminas secundarias, en presencia de CO/O2. Se ha determinado que un soporte con estructura dh-LDH con una relación de Mg/Al de 3 es el idóneo para estabilizar especies de [PdI2] generadas in situ en el medio de reacción así como para promover la activación de los reactivos de partida. El sistema catalítico ha demostrado ser reusable y estable bajo las condiciones de reacción, además de poseer una elevada aplicabilidad sintética al haber obtenido más de 60 propiolamidas diferentes, destacando el uso por primera vez en este tipo de procesos de aminas N-aromáticas y N-heterocíclicas. Finalmente, se ha llevado a cabo la síntesis de materiales híbridos derivados de soportar mediante interacciones no covalentes complejos de Pd con geometría plano-cuadrada sobre matrices grafénicas. Los resultados de caracterización apuntan a que estos materiales están constituidos, principalmente, por especies aisladas de Pd(II), demostrando el papel estabilizante de los ligandos utilizados al evitar la agregación del metal. Esos materiales han sido, en general, altamente activos y selectivos como catalizadores en la semi-hidrogenación de alquinos, y lo que es más relevante, se ha demostrado una sinergia complejo - grafeno en la actividad catalítica estudiada. El material de [Pd-Phen/OGr-C] ha sido reutilizado en varios ciclos y es estable bajo las condiciones de reacción. Además, este protocolo catalítico posee una elevada aplicabilidad, al haberse podido utilizar hasta con 37 alquinos diferentes obteniendo muy buenos resultados de rendimiento y quimioselectividad. / [CA] La present tesi doctoral es basa en la síntesi, caracterització i ús de catalitzadors basats en espècies de Pd suportades sobre matrius sòlides en reaccions d'interés en química fina. En general, s'ha pretès obtenir catalitzadors multifuncionals, estables i reutilitzables que es puguen separar fàcilment de la mescla de reacció i que contribuïsquen a desenvolupar protocols més sostenibles que donen lloc a compostos orgànics d'interès. En primer lloc, el material [Pd/Al2O3], constituït per nanoagregats de Pd(0) d'una grandària mitjana de 2.8 nm i suportats sobre una matriu de tipus ¿-Al2O3 amb elevada densitat de llocs àcids, ha demostrat ser altament actiu i eficient en la ciclació deshidrogenativa entre urees i 1,2-diols per a la síntesi d'imidazol-2-ones. En utilitzar urees i 1,2-diols desactivats, la cooperativitat Pd-Zn ha demostrat ser imprescindible per a l'èxit del procés, aconseguint els millors resultats emprant el sistema de [Pd/Al2O3]-ZnO. Tots dos materials, [Pd/Al2O3] i [Pd/Al2O3]-ZnO, han demostrat ser reutilitzables i estables sota les condicions de reacció ja que no presenten problemes de lixiviació. A més, aquest protocol catalític ha permès obtenir fins a 28 imidazol-2-ones amb bons resultats, demostrant el seu ampli potencial sintètic. D'altra banda, el nanomaterial [Pd(0.75%)/Mg3Al-LDH]-300(D), constituït per nanopartícules de Pd(0) d'una grandària mitjana de 2.8 nm suportades sobre una matriu bàsica de tipus dh-LDH, ha demostrat ser altament actiu per a catalitzar la síntesi de propiolamides mitjançant l'aminocarbonilació oxidativa entre alquins terminals i amines secundàries, en presència de CO/O2. S'ha determinat que un suport amb estructura dh-LDH amb una relació de Mg/Al de 3 és l'idoni per a estabilitzar les espècies de [PdI2] generades in situ en el medi de reacció així com per a promoure l'activació dels reactius de partida. El sistema catalític ha demostrat ser reutilitzable i estable sota les condicions de reacció, a més de posseir una elevada aplicabilitat sintètica en haver obtingut més de 60 propiolamides diferents, destacant l'ús per primera vegada en aquesta mena de processos d'amines N-aromàtiques i N-heterocícliques. Finalment, s'ha dut a terme la síntesi de materials híbrids derivats de suportar mitjançant interaccions no covalents complexos de Pd amb geometria pla-quadrada sobre matrius grafèniques. Els resultats de caracterització apunten a que aquests materials estan constituïts, principalment, per espècies aïllades de Pd(II), demostrant el paper estabilitzant dels lligands utilitzats per a evitar l'agregació del metall. Aquests materials han sigut, en general, altament actius i selectius com a catalitzadors en la semi-hidrogenació d'alquins, i el que és més rellevant, s'ha demostrat una sinèrgia complex - grafè en l'activitat catalítica estudiada. El material [Pd-Phen/OGr-C] ha sigut reutilitzat en diversos cicles i es estable sota les condicions de reacció. A més, aquest protocol catalític posseeix una elevada aplicabilitat i s'ha pogut aplicar a 37 alquins diferents obtenint molt bons resultats de rendiment i quimioselectivitat. / [EN] The present PhD thesis is focused on the synthesis, characterisation and use of catalysts based on Pd species supported on solid matrixes in reactions of interest in fine chemistry. In general, the aim is to obtain multifunctional, stable and reusable catalysts that can be easily separated from the reaction mixture and that contribute to the development of more sustainable protocols leading to relevant organic compounds. Firstly, the [Pd/Al2O3] material, consisting of Pd(0) nanoaggregates with an average size of 2.8 nm and supported on a ¿-Al2O3-type matrix with a high density of acid sites, has been designed as a highly active and efficient catalyst in the dehydrogenative cyclisation between ureas and 1,2-diols for the synthesis of imidazole-2-ones. When using ureas and deactivated 1,2-diols, Pd-Zn cooperativity has been shown to be essential for the success of the process, with the best results obtained using a [Pd/Al2O3]-ZnO system. Both materials, [Pd/Al2O3] and [Pd/Al2O3]-ZnO, have proved to be reusable and stable under the reaction conditions as they do not present leaching problems. Moreover, this catalytic protocol has allowed to obtain up to 28 imidazole-2-ones with good results, demonstrating it is wide synthetic potential. On the other hand, the nanomaterial [Pd(0.75%)/Mg3Al-LDH]-300(D), consisting of Pd(0) nanoparticles with an average size of 2.8 nm and supported on a basic dh-LDH-type matrix, has been shown to be highly active for catalysing the synthesis of propiolamides via oxidative aminocarbonylation between terminal alkynes and secondary amines in the presence of CO/O2. A dh-LDH-structured support with an Mg/Al ratio of 3 has been found to be suitable for stabilising [PdI2] species generated in situ in the reaction medium, as well as for promoting the activation of the starting reagents. The catalytic system has proved to be reusable and stable under the reaction conditions, besides having a high synthetic applicability as more than 60 different propiolamides have been obtained. It is especially relevant the use of N-aromatic and N-heterocyclic amines for the first time in this type of processes. Finally, the synthesis of hybrid materials derived from supporting Pd complexes with planar square geometry on graphene matrices through non-covalent interactions has been carried out. The characterisation results show that these materials are mainly constituted by isolated Pd(II) species, demonstrating the stabilising role of the ligands to avoid the aggregation of the metal. These materials have been, in general, highly active and selective as catalysts in the semi-hydrogenation of alkynes, and what is more relevant, a complex - graphene synergy has been demonstrated in the studied catalytic activity. In addition, [Pd-Phen/OGr-C] has shown to be reusable in several catalytic cycles and stable under the reaction conditions. Moreover, this catalytic protocol has demonstrated a high applicability, in fact it has been applied to 37 different alkynes with very good results, in terms of yield and chemoselectivity. / Arango Daza, JC. (2023). Materiales basados en especies de Pd soportadas sobre matrices sólidas como catalizadores eficientes para reacciones de interés en química fina [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/201576

Alquinos

Catálisis heterogénea

Paladio

Deshidrogenación

Carbonilación oxidativa

Semi-hidrogenación

Semi-hydrogenation

Oxidative carbonylation

Dehydrogenation

Palladium

Heterogeneous catalysis

Alkynes

Processes for Light Alkane Cracking to Olefins

Peter Oladipupo (8669685)

12 October 2021

<p>The present work is focused on the synthesis of small-scale (modular processes) to produce olefins from light alkane resources in shale gas.</p> <p>Olefins, which are widely used to produce important chemicals and everyday consumer products, can be produced from light alkanes - ethane, propane, butanes etc. Shale gas is comprised of light alkanes in significant proportion; and is available in abundance. Meanwhile, shale gas wells are small sized in nature and are distributed over many different areas or regions. In this regard, using shale gas as raw material for olefin production would require expensive transportation infrastructure to move the gas from the wells or local gas gathering stations to large central processing facilities. This is because existing technologies for natural gas conversions are particularly suited for large-scale processing. One possible way to take advantage of the abundance of shale resource for olefins production is to place small-sized or modular processing plants at the well sites or local gas gathering stations.</p> <p>In this work, new process concepts are synthesized and studied towards developing simple technologies for on-site and modular processing of light alkane resources in shale gas for olefin production. Replacing steam with methane as diluent in conventional thermal cracking processes is proposed to eliminate front-end separation of methane from the shale gas processing scheme. Results from modeling studies showed that this is a promising approach. To eliminate the huge firebox volume associated with thermal cracking furnaces and allow for a compact cracking reactor system, the use of electricity to supply heat to the cracking reactor is considered. Synthesis efforts led to the development of two electrically powered reactor configurations that have improved energy efficiency and reduced carbon footprints over and compare to conventional thermal cracking furnace configurations.</p> <p>The ideas and results in the present work are radical in nature and could lead to a transformation in the utilization of light alkanes, natural gas and shale resources for the commercial production of fuels and chemicals.</p>

Chemical Engineering Design

Light Alkane Cracking

Olefin Production

Thermal Cracking

Electrical Reactor

Shale Gas Processing

Natural Gas Processing

Alkane Dehydrogenation

Methane Ethane Cracking

Methane as a Diluent

Electrical Dehydrogenation

Electrified Cracking Process

Process Intensification

Modularization

Modular Process

Small-Scale Chemical Process

Light Gas Pyrolysis

Alkane Pyrolysis

Ethane Pyrolysis

Ethane Cracking

Ethane Dehydrogenation

Ethylene Production

Influence of modifiers on Palladium based nanoparticles for room temperature formic acid decomposition

Jones, Simon Philip

January 2013

Heterogeneous catalysts form a highly important part of everyday life, ranging from the production of fertiliser enabling the growth of crops that sustain much of the world's population to the production of synthetic fuels. They constitute a key part of the chemical industry and contribute towards substantial economic and environmental benefits. Heterogeneous catalysts are also believed to have an important role to play in a future hydrogen economy, reducing our requirements for fossil fuels. To this end, formic acid has been proposed as a potential hydrogen storage material for small portable devices. Additionally, formic acid has historically been used as a probe molecule to study catalyst materials and recent developments in the knowledge of its decomposition pathways and the preferred sites of these reactions, establish a good foundation for further study. This work explores a range of novel modification techniques that alter the activity of Pd nanoparticles to decompose formic acid to H₂ and CO₂. The methods used are the addition of polymers, attaching various functional groups to the surface of the catalyst support and decoration of nanoparticles with sub-monolayer coverages of another metal. Using a range of characterisation methods including FTIR of an adsorbed CO probe, XRD and XPS coupled with computational modelling, it is found that these methods result in some significant electronic and/or geometric alterations to the Pd nanoparticles. For polymer modification, the nature of the pendent group is highly important in determining the effects of the polymer on the Pd particles, with all the tested polymers resulting in varying degrees of electronic donation to the Pd surface. The geometric modifications caused by the polymers also varied with pendent groups; with amine containing pendent groups found to selectively block low coordinate sites, preventing the undesired dehydration of formic acid which results in poisoning of the Pd catalyst by the resulting CO. Attachment of amine groups to the surface of metal oxide catalyst supports, is demonstrated to result in dramatic electronic promotional effects to the supported Pd nanoparticles, and when an amine polymer is attached to the support surface the geometric modification is again observed. Finally decoration of Pd nanoparticles with a sub-monolayer coverage of a second metal is examined, resulting in some similar electronic and geometric effects on Pd nanoparticle surfaces to those observed with polymer modification with corresponding changes in formic acid decomposition activity. Overall, a number of methods are displayed to tune the catalytic activity and selectivity of Pd nanoparticles for formic acid decomposition, resulting in catalysts with some of the highest reported TOF's at room temperature. These modification methods are believed to be potentially applicable to a wide range of other catalytic reactions that operate under mild conditions.

546

Étude de l’ionisation et de la fragmentation de bases de l’ADN-ARN par la théorie de la fonctionnelle de la densité / Ionization and fragmentation of DNA-RNA bases : a density functional theory study

Sadr-Arani, Leila

13 May 2014

Les rayonnements ionisants (RI) traversent les tissus humains, y déposent de l'énergie et la dissipent en fragmentant des molécules. Les fragments obtenus peuvent être mis en évidence par spectrométrie de masse. Malgré la quantité d'informations obtenue expérimentalement à partir du spectre de masse, l'expérience seule ne peut pas répondre à toutes les questions concernant les mécanismes de fragmentation des bases de l'ADN/ARN, et l'étude issue des méthodes quantiques est un complément précieux à ces informations. L'étude théorique permet de connaître les liaisons moléculaires rendues faibles dans chaque base par ionisation et ainsi de prévoir les mécanismes de fragmentation et les fragments produits. Le but de ce travail est d'étudier l'ionisation et les mécanismes de fragmentation de bases de l'ADN/ARN (Uracile, Cytosine, Adénine et Guanine) et d'identifier les cations correspondants à chaque pic des spectres de masse. Nous avons effectué nos calculs en utilisant la DFT avec la fonctionnelle PBE. Dans cette thèse, pour toutes les bases d'ARN, la réaction de rétro Diels-Alder est une des voies principales de dissociation (élimination de HNCO ou de NCO•) à l'exception de l'adénine qui n'a pas d'atome d'oxygène. La perte d'une molécule NH3 (NH2•) est aussi un chemin commun à toutes les bases contenant un ou plusieurs groupes amine. Egalement, la possibilité de la perte d'un hydrogène à partir des cations est également envisagée, ainsi que la dissociation de ces cations déshydrogénés et des bases protonées, en se limitant à l'uracile. Ce travail montre tout l'intérêt de l'apport de calcul (DFT) à l'interprétation des spectres de masse de bases de l'ADN / Ionizing radiation (IR) cross human tissue, deposit energy and dissipate fragmenting molecules. The resulting fragments may be highlighted by mass spectrometry. Despite the amount of information obtained experimentally by the interpretation of the mass spectrum, experience alone cannot answer all the questions of the mechanism of fragmentation of DNA/RNA bases and a theoretical study is a complement to this information. A theoretical study allows us to know the weakest bonds in the molecule during ionization and thus may help to provide mechanisms of dissociation and produced fragments. The purpose of this work, using the DFT with the PBE functional, is to study the ionization and fragmentation mechanisms of DNA/RNA bases (Uracil, Cytosine, Adenine and Guanine) and to identify the cations corresponding to each peak in mass spectra. For all RNA bases, the retro Diels-Alder reaction (elimination of HNCO or NCO•) is a major route for dissociating, with the exception of adenine for which there is no atom oxygen in its structure. Loss of NH3 (NH2•) molecule is another common way to all bases that contain amine group. The possibility of the loss of hydrogen from the cations is also investigated, as well as the dissociation of dehydrogenated cations and protonated uracil. This work shows the interest of providing DFT calculation in the interpretation of mass spectra of DNA bases

DFT

PBE

Ionisation

Fragmentation

Mécanismes

Déshydrogénation

Protonation

Bases de l’ADN/ARN

DFT

PBE

Ionization

Fragmentation

Mechanism

Dehydrogenation

Protonation

DNA/RNA bases

543.65

Elaboration et caractérisation thermo-physique de micro-composants fonctionnels à base de poudres magnétocaloriques / Elaboration and thermo-physical characterization of functional micro components based on magnetocaloric powders

Lanzarini, Julien

05 April 2016

Les travaux de cette thèse proposent le développement d’un procédé de fabrication de composants micro-structurés à base d’unmatériau magnétocalorique. A plus long terme, ces composants de type lame mince seront intégrés à des dispositifs deréfrigération magnétique. Leur réalisation par les procédés conventionnels tels que l’usinage n’est pas envisageable dansl’optique d’une industrialisation. La solution envisagée est basée sur la mise en forme de composants par réplication d’uncomposite magnétocalorique. Ce micro-composite est défini par le mélange des poudres magnétocaloriques hydrogénées detype La(Fe,Si)13 dans une matrice thermoplastique (PP, LDPE). Cette technique permet de bénéficier des avantages desprocédés de mise en forme des polymères comme l’extrusion ou le moulage par injection. Le développement d’un tel procédéest divisé en deux parties. La première partie concerne l’élaboration et la caractérisation du micro-compositemagnétocalorique. Les tests réalisés en mélangeur ont permis de proposer plusieurs formulations micro-compositesmagnétocaloriques selon différents taux de charge. Cette première partie du développement étudie les différents aspects dumatériau micro-composite comme la rhéologie et les propriétés magnétocaloriques des mélanges. La caractérisationrhéologique basée sur les tests au rhéomètre capillaire est réalisé afin d’évaluer la capacité de mise en forme des mélangesassociée au procédé d’extrusion-conformage. Les propriétés propres aux matériaux magnétocaloriques telles que la variationde température adiabatique (ΔT) et la température de Curie (Tc) sont investiguées. Le contrôle de la Tc par mesure DSC a misen évidence des problématiques de déshydrogénation des poudres liées à la température d’élaboration. L’impact du taux decharge en poudre est étudié par la mesure des ΔT permettant d’estimer les performances finales du micro-composite. Ladeuxième partie traite du développement du procédé de mise en forme par extrusion-conformage. Une ligne d’outillages dédiéeà l’extrusion-conformage des lames micro-structurées a été réalisée et validée à l’échelle du laboratoire. La stabilité de latempérature de Curie a été vérifiée tout au long du processus d’élaboration des composants micro-structurés. Les paramètresd’extrusion tels que la température d’extrusion ont pu être définis afin d’éviter la déshydrogénation des poudresmagnétocaloriques. Les composants extrudés sont caractérisés en termes d’homogénéité du taux de charge en poudre et detolérances géométriques aboutissant à la / This thesis proposes the development of a method of manufacturing micro-structured components made of a magnetocaloricmaterial. In the long term, these blade-type components will be integrated in magnetic refrigeration devices. On an industrialscale, their production by the conventional process, machining, is not possible. The solution proposed is based on shaping thecomponent by a replication process via a magnetocaloric composite material. This micro-composite is defined by the mixtureof hydrogenated magnetocaloric powders of La(Fe,Si)13 in a thermoplastic matrix (PP, LDPE). This technique allowsutilization of the polymer shaping process, extrusion. The development of this process is divided into two parts. The first partconcerns the development and characterization of the magnetocaloric micro-composite. Results from tests performed with themixer allow the proposal of several micro-composite formulations under different loading rates. These formulations are thenstudied for various aspects of micro-composite material. The rheological characterization based on capillary rheometer tests istaken to evaluate the shaping ability of the mixtures associated with the extrusion process. Specific properties ofmagnetocaloric materials such as the adiabatic temperature variation (ΔT) and the Curie temperature (Tc) are also investigated.The control of the Tc by DSC measurement highlighted problematic dehydrogenation of the powders as a result of theelaboration temperature. The impact of loading rate is studied by measuring the ΔT in order to estimate the final performanceof the micro-composite. The second part deals with the development of the shaping process by extrusion. A tooling linededicated to extrusion of the micro-structured blades is carried out and validated at the laboratory scale. The stability of Tc ischecked throughout the elaboration process of the micro-structured components. The extrusion parameters are defined to avoidthe dehydrogenation of magnetocaloric powders. The extruded components are characterized in terms of homogeneity of thepowder loading rate and geometric tolerances resulting in the validation of the developed process. The industrial transfer isnow possible to a large scale production.

Thermoplastique

Composite

Poudres magnétocaloriques

Déshydrogénation

Température de Curie

Propriétés magnétocaloriques

Extrusion-conformage

Thermoplastic

Magnetocaloric powders

Composite

Dehydrogenation

Curie temperature

Magnetocaloric properties

Extrusion process

679

Síntese e caracterização de catalisadores VOx/Nb2O5/Al2O3 para a reação de desidrogenação oxidativa de parafinas lineares / Synthesis and characterization of VOx/Nb2O5/Al2O3 catalysts for oxidative dehydrogenation reaction of linear paraffins

Ballerini, Bruno Santos

25 March 2009

O uso do óxido de nióbio como promotor e como suporte tem sido investigado em numerosas aplicações catalíticas, tais como, na oxidação seletiva, conversão de hidrocarbonetos, polimerização, eliminação de poluentes (NOx), desidrogenação, etc. Sabe-se que a adição de nióbio na &#947;-Al2O3 melhora a acidez, a seletividade e a estabilidade térmica e, conseqüentemente, a atividade catalítica desses materiais. A atividade catalítica dos sistemas contendo nióbia suportada é decorrente das diferentes espécies redox do óxido de nióbio presentes nas superfícies do sólido. O presente trabalho tem como objetivo avaliar a influência do teor de nióbio e vanádio no sistema catalítico V2O5/Nb2O5-Al2O3 na reação de desidrogenação oxidativa do propano. A fim de alcançar o objetivo deste trabalho, as seguintes técnicas de caracterização foram utilizadas: volumetria de N2 (área específica e volume de poros), redução a temperatura programada, difratometria de raios X (DRX) e espectroscopia Raman. As propriedades ácidas e/ou básicas dos suportes e catalisadores foram avaliadas através da reação de decomposição do isopropanol. / The use of niobium oxide as a promoter and as a support has been investigated in various catalyst applications, such as selective oxidation, hydrocarbonate conversion, polymerization, elimination of (NOx) pollutants, dehydrogenation, etc. It is known that adding niobium to &#947;-Al2O3 improves acidity, selectivity and thermal stability and consequently the catalyst activity of these materials. The catalyst activity of systems containing supported niobium is due to the different redox species of niobium oxide present on the solid surface. This study aims to evaluate the influence of the niobium and vanadium content in the V2O5/Nb2O5-Al2O3 catalyst system in the propane oxidative dehydrogenation reaction. Aiming the target of this study, the following characterization techniques were used: N2 volumetry (specific area and pore volume), temperature-programmed reduction, X-ray diffractometry (DRX), and Raman spectroscopy. The acid-base properties of the supports and catalysts were studied through isopropanol decomposition reaction.

catalisadores V2O5/Nb2O5-Al2O3

Decomposição do isopropanol

desidrogenação oxidativa do propano

DRX

DRX

Espectroscopia Raman

isopropanol decomposition

propane oxidative dehydrogenation

Raman spectroscopy

RTP

RTP

V2O5/Nb2O5-Al2O3 catalysts

Pincer-Liganden mit fluorierten Alkylketten

Hermes, Anja

08 January 2015

Die vorliegende Arbeit beschäftigt sich mit der Synthese von Pincer-Ligandenvor-läufern mit fluorierten Alkylketten –(CH2)2Rf6 (Rf6 = C6F13) an Sauerstoff- bzw. Phosphorhaftatomen. Darüber hinaus stehen die Bildung hochfluorierter Lithium-, Palladium-, Ruthenium- sowie Aluminium-Pincer-Komplexe und die Reaktivitäts-studien für diese neuartigen Komplexe im Fokus. Für vergleichende Untersuchungen war ebenso die Synthese der analogen, nicht fluorierten Verbindungen von Interesse. Eine Mischung aus in situ hergestelltem (NC5H3)-1,3-(CH2P((CH2)2(CF2)5CF3)2)2 (13) und [Ru(2Me-C3H4)2(cod)] kann die Dehydrogenierung von Cyclooctan bei vergleichsweise niedrigen Temperaturen von 80 °C katalysieren. Interessant ist die je nach Lösungsmittel unterschiedliche Produktbildung. Die Lithium- und Aluminiumkomplexe [Li(C6H3-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (21), [Li(C6H3 2,6 (CH2OCH3)2)] (22), [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)(CH3)2] (28), [Al((C6H3)-2,6-(CH2OCH3)2)I2] (29), [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) wurden erfolgreich synthetisiert und charakterisiert. Mittels [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) konnten diverse aromatische Verbindungen wie Benzol, Toluol oder Pentafluorbenzol dehydrogenierend gekuppelt werden. Weiterhin wurden die Palladiumkomplexe [Pd(Cl)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (34) und [Pd(NCCH3)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)][PF6] (36), [Pd(Cl)((C6H3)-2,6-(CH2OCH3)2] (37) und [Pd(NCCH3)((C6H3)-2,6-(CH2OCH3)2][PF6] (38) hergestellt und charakterisiert. / The current thesis is concerned with the syntheses of pincer ligand precursors with fluorinated alkyl chains –(CH2)2Rf6 (Rf6 = C6F13), the so called „ponytails“, at oxygen or phosphorous donor atoms. Furthermore, this work focuses on the formation of highly fluorinated lithium, palladium, ruthenium or alumina pincer complexes and considering reactivity studies of these novel compounds. For comparative investigations the syntheses of the analog non-fluorinated compounds was of great interest. A mixture of in situ synthesized (NC5H3)-1,3-(CH2P((CH2)2(CF2)5CF3)2)2 (13) and [Ru(2Me-C3H4)2(cod)] catalyses the dehydrogenation of cyclooctane at relatively low temperatures of 80 °C. Depending on the used solvent cyclooctene or cyclooctatriene can be received as the single product, respectively. The lithium and alumina complexes [Li(C6H3-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (21), [Li(C6H3 2,6 (CH2OCH3)2)] (22), [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)(CH3)2] (28), [Al((C6H3)-2,6-(CH2OCH3)2)I2] (29), and [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) were synthesized and characterized succesfully. With the complex [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) a diversity of aromatic compounds like benzene, toluene or pentafluorobenzene can be coupled after dehydrogenation. Moreover, the palladium complexes [Pd(Cl)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (34), [Pd(NCCH3)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)][PF6] (36), [Pd(Cl)((C6H3)-2,6-(CH2OCH3)2] (37) and [Pd(NCCH3)((C6H3)-2,6-(CH2OCH3)2][PF6] (38) were synthesized and characterized.

Fluorierte Alkylketten

Pincer-Liganden

Alkandehydrogenierung

Pincer-Komplexe

fluorinated alkyl chains

pincer ligands

alkane dehydrogenation

pincer complexes

540 Chemie

30 Chemie

VH 9707

ddc:540

Dichtefunktional-Rechnungen zu selektiven Oxidationen von Propan und Methanol mittels Vanadiumoxidkatalysatoren auf Siliziumdioxidträgern

Pritzsche, Marc

29 October 2008

In der vorliegenden Arbeit wurden Cluster- und QM/MM-Einbettungsmodelle für geträgerte Vanadiumoxidkatalysatoren auf Siliziumdioxid mit Hilfe von DFT-Rechnungen untersucht. Es wurden Strukturen, Schwingungen und die Stabilität gegenüber Wasser und Sauerstoff unter Reaktionsbedingungen betrachtet. Ferner wurde die Reaktivität bei der Oxidativen Dehydrierung (ODH) von n-Propan zu n-Propen und der Oxidation von Methanol zu Formaldehyd untersucht. Zur Durchführung der Einbettungsrechnung wurde ein angepasstes Shell-Model-Potential verwendet. Bezüglich der Schwingungen zeigte sich, dass sich der Einfluss der Einbettung hauptsächlich auf die Kopplung von Schwingungen beschränkt, aber die Frequenzen kaum verändert werden. Die lokale Struktur um das Vanadiumatom beeinflusst die Vanadylschwingung wenig. Die Stabilitätsberechnungen haben gezeigt, dass die untersuchten Modelle unter Reaktionsbedingungen vorliegen und hydroxylierte Spezies keine Bedeutung haben. Bei der Untersuchung der beiden Reaktionen wird für die Cluster- und die QM/MM-Einbettungsrechnungen jeweils derselbe Mechanismus gefunden. Der Vorteil der Einbettungsrechnungen besteht darin, dass die lokale Struktur um das aktive Zentrum variiert werden kann. Bei der ODH von Propan hat die lokale Struktur einen eher geringen Einfluss auf die Reaktionsenergien, denn die Reaktion verläuft hauptsächlich am Vanadylsauerstoff. Der Übergangszustand des geschwindigkeitsbestimmenden Schrittes liegt bei der Einbettungsrechnung dennoch energetisch höher. Grund ist eine sterische Hinderung durch die Hydroxylgruppen der Oberfläche. Bei der Oxidation von Methanol ist der Einfluss der lokalen Struktur größer, denn die Reaktion verläuft sowohl über den Vanadylsauerstoff als auch über die Brückensauerstoffatome zum Trägermaterial. Für beide Reaktionen wird ein Einfluss der Vanadiumbeladung auf die Reaktionsenergien gefunden. Bei höherer Beladung werden die Reaktionen exothermer. / In this work cluster models and models for QM/MM-embedding for supported vanadia catalysts on silica were studied with help of DFT-calculations. The structures, vibrations and stability towards water and oxygen under reaction conditions were examined. Furthermore the reactivities towards the oxidative dehydrogenation (ODH) of n-propane to n-propene and the oxidation of methanol to formaldehyde were tested. For the embedding an adapted shell-model-potential was employed. Regarding the vibrations it was shown that the influence of the embedding lies mostly in the coupling of vibrations and not in their frequencies. The local structure surrounding the vanadium atom has only minor influence. The stability calculations have shown that the tested model systems exist under reaction conditions while hydroxylated species do not exist. When studying the reactivity of the two reactions always the same mechanism is found for cluster and embedded calculations. The benefit of the embedded calculations is the possibility to vary the local structure surrounding the active center. For the ODH of propane the local structure has only small impact on reaction energies because the reaction takes mainly place at the vanadyl oxygen. The transition state of the rate determining step nevertheless is energetically higher in the embedded calculations due to steric hindrance caused by the hydroxyl groups of the surface. The impact of local structure is more important for the oxidation of methanol since in this case vanadyl oxygen and bridging oxygens to the support are involved in the reaction. For both reactions an influence on reaction energies of the vanadia loading is found. With more loading the reactions becomes more exothermic.

Dichtefunktionaltheorie

QM/MM-Einbettung

Vanadiumoxidkatalysatoren

Oxidative Dehydrierung

density functional theory

QM/MM-embedding

vanadia catalysts

oxidative dehydrogenation

540 Chemie

30 Chemie

ddc:540

Synthese neuer hochfluorierter Rh- und Ir-Komplexe zur Katalyse im perfluorierten Solvent und überkritischem Kohlenstoffdioxid

Liebau, frank

04 May 2016

Die vorliegende Arbeit beschäftigt sich mit homogenkatalytisch gesteuerten Dehydrierungsreaktionen unter Verwendung von fluorierten und hochfluorierten Metallkomplexen. Reaktivitätsuntersuchungen wurden vorrangig in einem perfluorierten Lösungsmittel durchgeführt, in dem die hochfluorierten Komplexe besondere Löslichkeit aufwiesen. Ferner fand in überkritischem Kohlenstoffdioxid ebenfalls homogen katalysiert die Hydrierung eines Alkens mit hoher Umsatzzahl statt. Die Aktivierung der Katalysatorvorläufer erfolgte in allen Fällen photolytisch. Die Modifizierung bekannter Strukturmotive metallorganischer Komplexe wurde durch die Einfuhr unterschiedlich langer fluorierter Ketten der Art Rf = CH2CH2CnF2n+1 (2n+1 = 13, 17 bzw. 21 → Rf13, Rf17 bzw. Rf21) vorgenommen und somit die Fluorophilie beeinflusst. Es wurden Dicarbonylkomplexe der Art [M(pentahapto-C5H4Rf)(CO)2] (M = Rh, Ir) synthetisiert. Die Rhodiumverbindungen zeigten eine latente Instabilität und bildeten höhernukleare Zersetzungsprodukte. Unterschiedliche Substrate wie Methyliodid und primäre Silane konnten erfolgreich mit den mononuklearen Spezies umgesetzt und die Komplexe [Rh(pentahapto-C5H4Rf13)(COMe)(I)(CO)] und [Rh(pentahapto-C5H4Rf13)(H)(SiEt3)(CO)] isoliert sowie auf Reaktivität untersucht werden. Durch die Reaktion der Dicarbonylkomplexe mit ausgewählten Phosphanen waren Phosphan-basierte Spezies der Art [M(pentahapto-C5H4Rf)(CO)(PR3)] (M = Rh, Ir; R = Et, Ph, Rf13) zugänglich. Die Verbindungen mit Triethylphosphanliganden zeigten gute Löslichkeit in Perfluormethylcyclohexan und Reaktivität in der C‒H-Bindungsaktivierung unterschiedlicher Cycloalkane. Die höchste Reaktivität in einer Dehydrierung von Cyclooktan konnte unter Verwendung von [Rh(pentahapto-C5H4Rf21)(CO)(PRf13)3] beobachtet werden. Gelöst in überkritischem CO2 zeigte dieser Komplex ebenfalls katalytische Reaktivität bei der Hydrierung von 3,3-Dimethyl-1-buten. / This work involves studies with homogeneous catalytically dehydrogenation reactions in use of fluorinated and highly fluorinated metalorganic compounds. Reactivity test were primarily carried out in perfluorinated solvents in use of highly fluorinated complexes with particularly high solubility. Furthermore, the hydrogenation of an alkene was possible under homogeneous conditions in supercritical carbon dioxide with high turnover numbers. Activation of all catalytic precursors was made photolytic. Influence on fluorophilic characteristics of known metalorganic compound motivs was made by substitution of fluorinated sidechains such as Rf = CH2CH2CnF2n+1 (2n+1 = 13, 17 or 21 → Rf13, Rf17 or Rf21). Thus complexes with two carbonyl ligands were available in use of rhodium and iridium [M(pentahapto-C5H4Rf)(CO)2] (M = Rh, Ir). Compounds with rhodium center were potential instable and higher nuclear species are formed due to decomposition. Substrates like methyliodide and primary silanes have been successfully activated at the mononuclear species and the complexes [Rh(pentahapto-C5H4Rf13)-(COMe)(I)(CO)] und [Rh(pentahapto-C5H4Rf13)(H)(SiEt3)(CO)] have been isolated and examined for reactive properties. In the reaction of biscarbonylic compounds and samples of free phosphines complexes such as [M(pentahapto-C5H4Rf)(CO)(PR3)] (M = Rh, Ir; R = Et, Ph, Rf13) with different phosphine ligands were available. All compounds bearing the triethylphosphine ligand are showing good solubility in perfluor(methylcyclohexane) and also showing reactivity towards C‒H bonds at different cycloalkanes. Highest reactivity in dehydrogenation reactions were carried out with [Rh(pentahapto-C5H4Rf21)(CO)(PRf13)3] towards cyclooctane. Further, dissolved in supercritical carbon dioxide it shows catalytic reactivity in the hydrogenation of 3,3-dimethyl-1-butene.

Dehydrierung

Hydrierung

fluorierte Metallkomplexe

überkritisches Kohlenstoffdioxid

dehydrogenation

hydrogenation

fluorinated metalorganic compounds

supercritical carbon dioxide

540 Chemie

30 Chemie

VH 9607

ddc:540