Global ETD Search

51	Reaction of Calcite and Dolomite with In-Situ Gelled Acids, Organic Acids, and Environmentally Friendly Chelating Agent (GLDA) Rabie, Ahmed 1978- 14 March 2013 (has links) Well stimulation is the treatment remedy when oil/gas productivity decreases to unacceptable economical limits. Well stimulation can be carried out through either "Matrix Acidizing" or fracturing with both "Hydraulic Fracturing" and "Acid Fracturing" techniques. "Matrix Acidizing" and "Acid Fracturing" applications involve injecting an acid to react with the formation and dissolve some of the minerals present and recover or increase the permeability. The permeability enhancement is achieved by creating conductive channels "wormholes" in case of "Matrix Acidizing" or creating uneven etching pattern in case of "Acid Fracturing" treatments. In both cases, and to design a treatment successfully, it is necessary to determine the distance that the live acid will be able to penetrate inside the formation, which in turn, determines the volume of the acid needed to carry out the treatment. This distance can be obtained through lab experiments, if formation cores are available, or estimated by modeling the treatment. The successful model will depend on several chemical and physical processes that take place including: the acid transport to the surface of the rock, the speed of the reaction of the acid with the rock, which is often referred to as "Reaction Rate", and the acid leak-off. The parameters describing these processes such as acid diffusion coefficient and reaction kinetics have to be determined experimentally to ensure accurate and reliable modeling. Hydrochloric acid and simple organic acids such as acetic and citric acids have been used extensively for stimulation treatments. The diffusion and reaction kinetics of these acids, in a straight form, were investigated thoroughly in literature. However, solely these acids are used in a simple form in the field. Acid systems such as gelled, crosslinked gelled, surfactant-based, foam-based, or emulsified acids are used to either retard the reaction rate or to enhance acid diversion. Literature review shows that additional work is needed to understand the reaction and report the diffusion and kinetics of these systems with carbonate. In addition, a new chelating agent (GLDA) was recently introduced as a stand-alone stimulating fluid. The kinetics and the mass transfer properties of this acid were not studied before. Therefore, the objective of this work is to study the reaction of different acid systems with calcite and dolomite and report the mass transport and kinetic data experimentally. Lactic acid, a chelating agent (GLDA), and in-situ gelled HCl-formic acids were investigated in this study. In some cases, rheology measurements and core flood experiments were conducted. The data were combined with the reaction study to understand the behavior of these acids and examine their efficiency if injected in the formation. In-situ gelled acids Crosslinked Acids GLDA Chelating Agents Core Flood analysis Rotating Disk Reactor Dolomite Dissolution Calcite Dissolution Reaction kinetics
52	Microwave-assisted Simultaneous Novel Synthesis Of Poly(dibromophenylene Oxide)s, Poly(diiodophenylene Oxide)s (p), Conducting(cp) And/or Crosslinked (clp) And/or Radical Ion Polymers (rip) Celik, Guler (bayrakli) 01 March 2007 (has links) (PDF) Microwave-assisted novel synthesis of poly(dibromophenylene oxide) or poly(diiodophenylene oxide) (P), conducting polymer (CP) and/or crosslinked polymer (CLP) and/or radical ion polymer (RIP) were achieved simultaneously from lithium, sodium or potassium 2,4,6-bromophenolate or sodium 2,4,6-iodophenolate in a very short time interval. Polymerizations were carried out by constant microwave energy with different time intervals varying from 1 to 20 min / or at constant time intervals with variation of microwave energy from 70 to 900 watt / or varying the water content from 0.5 to 5 ml at constant time intervals and microwave energy. Poly(dihalophenylene oxide) and radical ion polymers were characterized by FTIR (Fourier Transform Infrared), 1H-NMR (Proton Nuclear Magnetic Resonance), 13C-NMR (Carbon-13 Nuclear Magnetic Resonance), TGA/ FTIR (Thermal Gravimetric Analysis / Fourier Transform Infrared), DSC (Differential Scanning Calorimeter), SEM (Scanning Electron Microscope), ESR (Electron Spin Resonance), GPC (Gel Permeation Chromatography), UV-Vis (UV-Visible Spectroscopy), Light Scattering and Elemental Analysis. Conducting and crosslinked polymers were characterized by FTIR, TGA/ FTIR, DSC, SEM, ESR, XRD (Powder Diffraction X-Ray) and Elemental Analysis. The effects of heating time, microwave energy and water content on the percent conversion and the polymer synthesis were also investigated. QD Polymers, Macromolecules 380-388 poly(dihalophenylene oxide) conducting polymer crosslinked polymer radical ion polymer.
53	Crosslinkable mixed matrix membranes for the purification of natural gas Ward, Jason Keith 11 January 2010 (has links) Mixed matrix nanocomposite membranes composed of a crosslinkable polyimide matrix and high-silica molecular sieve particles were developed for purifying natural gas. It was shown that ideal mixed matrix effects were not possible without sieve surface modification. A previously developed Grignard procedure was utilized to deposit magnesium hydroxide nanostructures on the sieve surface in order to enhance polymer adhesion. Analyses of Grignard-treated sieves pointed to the formation of non-selective voids within the surface deposited layer. These voids were suspected to lead to lower-than-expected membrane performance. In order to improve membrane transport, a reactive sizing procedure was developed to fill these voids with polyimide-miscible material. In a serendipitous discovery, as-received sieves--when treated with this reactive sizing procedure--resulted in nearly identical membrane performance as reactive-sized, Grignard-treated sieves. This observation lead to the speculation of a non-ideal transport mechanism in mixed matrix membranes. Nanocomposite Mixed matrix membrane Polyimide Gas separation Crosslinkable polymer membrane Natural gas Purification Gas separation membranes Crosslinked polymers
54	Crosslinked polyimide hollow fiber membranes for aggressive natural gas feed streams Omole, Imona C. 01 December 2008 (has links) Natural gas is one of the fastest growing primary energy sources in the world today. The increasing world demand for energy requires increased production of high quality natural gas. For the natural gas to be fed into the mainline gas transportation system, it must meet the pipe-line quality standards. Natural gas produced at the wellhead is usually "sub-quality" and contains various impurities such as CO2, H2S, and higher hydrocarbons, which must be removed to meet specifications. Carbon dioxide is usually the most abundant impurity in natural gas feeds and high CO2 partial pressures in the feed can lead to plasticization, which causes loss of some methane product and may ultimately render the membrane ineffective. Moreover, the presence of highly sorbing higher hydrocarbons in the feed can further reduce membrane performance. Covalent crosslinking has been shown to increase plasticization resistance in dense films by suppressing the degree of swelling and segmental chain mobility in the polymer, thereby preserving the selectivity of the membrane. This research focuses on extending the dense film success to asymmetric hollow fibers. In this work, the effect of high pressure CO2 (up to 400 psia CO2 partial pressure) on CO2/CH4 mixed gas separation performance was investigated on defect-free the hollow fiber membrane at different degrees of crosslinking. All the crosslinked fibers were shown to exhibit good resistance to selectivity losses from CO2 induced plasticization, significantly more than the uncrosslinked fibers. Robust resistance of the hollow fiber membranes in the presence of toluene (a highly sorbing contaminant) was also demonstrated as the membranes showed no plasticization. Antiplasticization was found to occur in the presence of toluene feeds with the crosslinkable fibers used in this work. Membrane Carbon dioxide Natural gas Hollow fiber Polyimide Gas separation Gas separation membranes High pressure (Technology) Natural gas Crosslinked polymers
55	Étude et modélisation mécanique de la cristallisation induite par la déformation des polymères : caoutchouc naturel réticulé et PET / Study and mechanical modeling of the strain-induced-crystallization of polymers : crosslinked naturel rubber and PET Quandalle, Grégoire 28 March 2017 (has links) L’objectif de cette thèse est de contribuer à la compréhension et à la modélisation de la cristallisation induite. Le phénomène est caractérisé pour deux matériaux : le PET et le caoutchouc naturel réticulé. Les conditions favorables au phénomène, de type caoutchoutique sont déterminées par analyses calorimétriques et spectroscopiques. La microstructure qui se développe au cours de la déformation est observée par diffraction des rayons X.Le PET est déformé en traction uni- et biaxiale. Une partie des étirages est suivie d’une relaxation des contraintes, une autre est suivie d’une trempe rapide. Il ressort de l’étude que l’étirage du PET dans ces conditions n’aboutit pas à l’obtention d’un cristal PET avec toutes les périodicités qui lui sont propres.Le caoutchouc naturel est déformé en traction uniaxiale et en cisaillement précédé d’un étirage uniaxial. En cisaillement, la phase cristalline obtenue au cours du pré-étirage ou du cisaillement tourne et tend à s’orienter comme les directions des déformations principales mais avec un retard angulaire. L’extension principale est utilisée pour étudier la phase cristalline obtenue pour les différents modes de sollicitation.Un modèle de comportement visco-hyperélastique, décrit dans le cadre de la thermodynamique des processus irréversibles, est étendu afin de reproduire le durcissement mécanique lié au développement d’une phase organisée/cristalline. Le modèle permet de reproduire les différents comportements mécaniques observés expérimentalement. / The present PhD thesis aims at a better understanding and modeling of strain-induced-crystallization. The phenomenon is characterized for two polymers: PET and crosslinked natural rubber. Strain conditions leading to strain-induced-crystallization are determined by thermal and dynamic mechanical analysis. The developing microstructure is observed by X-ray scattering.The PET is stretched in uni- and biaxial tension. A part of samples is rapidly quenched after stretching and another is submitted to a stress relaxation after stretching. The studies demonstrate that the stretching of PET does not enable the formation of a complete PET crystal with all its own families of planes.The crosslinked natural rubber is stretched in uniaxial tension and in shear preceded by uniaxial stretching. In shear, the crystalline phase, appeared during the pre-stretching or during the shear rotates and has a tendency to orient as the directions of the principal strains. The principal elongation is used to compare the crystallization under the different stresses.A constitutive modeling for visco-hyperelastic behaviors, in a complete thermodynamics framework of irreversible processes, is extended in order to reproduce le mechanical hardening related to the development of an organized/crystalline phase. The modeling successes in reproducing the experimental behaviors in uploading/unloading for various strain conditions. Poly (éthylène téréphtalate) Caoutchouc naturel réticulé Diffraction des rayons X Viscohyperélasticité Strain-induced-crystallization Poly(ethylene terephthalate) Crosslinked natural rubber Xray scattering Visco-hyperelasticity 620.11
56	Analyse multi-échelle du vieillissement thermo-oxydant d’un mélange de polyéthylènes réticulés / Multi-scale analysis of thermo-oxidative ageing on crosslinked polyethylene blends Rapp, Géraldine 12 December 2018 (has links) Les travaux entrepris dans le cadre de cette thèse portent sur l’étude de la représentativité du vieillissement thermique accéléré par rapport au vieillissement en conditions d’usage de mélanges de polyéthylènes utilisés comme isolant de câbles qualifiés K1 de dernière génération dans les bâtiments réacteurs des centrales nucléaires. L’influence de l’état physique des constituants du mélange pendant le vieillissement sur les cinétiques et les mécanismes de vieillissement est également étudiée. Le matériau est un mélange de deux polyéthylènes : un polyéthylène linéaire (PE) et un polyéthylène ramifié (PEcB) réticulé au peroxyde. Une approche basée sur l’analyse multi-échelle (moléculaire, microstructurale, macromoléculaire et macroscopique) a été mise en place. Plusieurs températures de vieillissement ont été choisies afin de faire varier l’état physique de l’un ou des deux polyéthylènes du mélange au cours du vieillissement. Les résultats à l’échelle moléculaire montrent les mêmes produits d’oxydation et les mêmes cinétiques pour le PE et le PEcB. En revanche, on observe une oxydation plus rapide du mélange 5050. Les cinétiques d’oxydation obéissent à une loi d’Arrhenius pour des vieillissements compris entre 80°C et 110°C, mais l’extrapolation à la température d’utilisation (60°C) n’est pas représentative du résultat expérimental. L’état physique (solide ou fondu) des échantillons au moment du vieillissement n’explique pas la non-représentativité des vieillissements accélérés. Les variations des propriétés mécaniques peuvent être reliées à l’évolution de la microstructure de chaque polymère et de leur architecture macromoléculaire au cours du vieillissement thermo-oxydant. Néanmoins, il apparaît difficile de corréler l’évolution de la structure chimique au cours du vieillissement avec l’évolution des propriétés mécaniques. Cette étude souligne l’importance de l’approche multi-échelle pour avoir une compréhension globale des phénomènes de vieillissement. / This work is devoted to the study of the representativeness of accelerated thermal ageing compared to ageing in use conditions of polyethylene blends used as insulant in the lastest-generation K1 qualified cables in nuclear power plants’ reactor buildings. The influence of the physical state of the components in the blends during ageing on the kinetics and ageing mechanisms is also studied. The material is a blend of two polyethylenes: a linear polyethylene (PE) and a branched polyethylene (PEcB) crosslinked with peroxides. An approach based on the multi-scale analysis (molecular, microstructural, macromolecular and macroscopic) was set up. Several ageing temperatures were chosen in order to vary the physical state of one or both polyethylenes in the blend during ageing. The results at molecular scale show the same oxidation products and kinetics for PE and PEcB. However, one can observe a faster degradation for the 5050 blend. The oxidation kinetics obey the Arrhenius law for thermal ageing between 80°C and 110°C, but extrapolation to the operating temperature (60°C) is not representative of the experimental data. The physical state (solid or molten) of the samples during thermal ageing does not explain the non-representativeness of accelerated ageing. The variations of mechanical properties can be linked to the evolution of the microstructure of each polymer and of their macromolecular architecture during thermo-oxidative ageing. Nevertheless, it is difficult to correlate the evolution of the chemical structure during ageing with the evolution of the mechanical properties. This study emphasizes the importance of the multi-scale analysis in order to have a comprehensive understanding of the ageing phenomena. Câble Vieillissement Polyéthylène réticulé Mélange Thermo-oxydation État physique Microstructure Propriétés mécaniques Cable Ageing Crosslinked polyethylene Blend Thermo-oxidation Physical state Microstructure Mechanical properties
57	Silanes in sustainable synthesis: applications in polymer grafting, carbon dioxide capture, and gold nanoparticle synthesis Nixon, Emily Cummings 02 October 2012 (has links) Vinyltrialkoxysilanes are grafted onto polyolefins via a radical mechanism; in a subsequent step, the pendant alkoxysilanes hydrolyze and condense upon exposure to water, resulting formation of crosslinks. Straight chain hydrocarbons were used as model compounds to investigate the regioselectivity of vinyltrimethoxysilane grafting. To stabilize the water-sensitive grafted products, the methoxy groups were substituted using phenyllithium. It was found that this reaction must be carried out for a minimum of three days to ensure full substitution. The grafted products were then separated on a weight basis using semi-preparative HPLC. Analysis of the di-grafted fraction using edited HSQC and HSQC-TOCSY NMR showed that radical propagation occurs via 1,4- and 1,5-intramolecular hydrogen shifts along the hydrocarbon backbone, resulting in multiple grafts per backbone. Post-combustion carbon capture targets CO₂ emissions from large point sources for capture and sequestration. A new class of potential carbon capture agents known as reversible ionic liquids (RevILs) has been synthesized and evaluated in terms of potential performance parameters (e.g. CO₂ capacity, viscosity, enthalpy of regeneration). These RevILs are silylated amines, which react with CO₂ to form a salt comprising an ammonium cation and a carbamate anion that is liquid at room temperature. Structural modifications of the basic silylamine skeleton result in drastic differences in the performance of the resulting RevIL. Systematic variation of the silylated amines allowed determination of a structure-property relationship, and continued iterations will allow development of an ideal candidate for scale-up. The properties and potential applications of gold nanoparticles (AuNP) are highly dependent on their size and shape. These properties are commonly controlled during liquid-phase synthesis through the use of capping agents, which must be removed following synthesis. Reverse micelles can also be used to control the morphology of AuNP during their synthesis. When RevILs are used in the formation of these reverse micelles, either as the disperse phase or as the surfactant, the built-in switch can be used to release the nanoparticles following their synthesis. This release on command could decrease the post-synthetic steps required to clean and purify AuNP prior to use. We have successfully synthesized AuNP using a number of different RevILs. Green chemistry Carbon dioxide capture Crosslinked polyethylene Gold nanoparticles Reversible ionic liquids Green solvents Silanes Carbon dioxide mitigation Polymerization Silane compounds Silane
58	Patternable electrophosphorescent organic light-emitting diodes with solution-processed organic layers Haldi, Andreas 08 August 2008 (has links) Organic light-emitting diodes (OLEDs) have drawn much attention in the last two decades. In recent years, the power efficiency of OLEDs has been increased to exceed the efficiency of fluorescent light bulbs. However, such high-efficiency devices are typically based on small molecules that have to be evaporated in vacuum. A much higher fabrication throughput and therefore lowered costs are expected if high-efficiency OLEDs were processed from solution. This thesis shows how solution-processed electrophosphorescent multilayer OLEDs can be achieved by starting with an evaporated three-layer device structure and replacing layer by layer with a solution-processed layer. First, the hole-transport layer was replaced by a polymer and high efficiencies were observed when using a hole-transport polymer with a high ionization potential and a low hole mobility. Then, the emissive layer was replaced by a copolymer consisting of hole-transport groups and emissive complexes in its side-chains. OLEDs with four different colors are shown where the orange devices showed the highest efficiency. The orange copolymer was further optimized by making changes to the chemical nature of the polymer, such as different molecular weight, different concentrations of the emissive complex and different linkers between the side-chains and the polymer backbone. Finally, a three-layer solution-processed OLED was fabricated by crosslinking the hole-transport and the emissive layer, and by spin-coating an electron-transport polymer on top. Moreover, using the photocrosslinking properties of the emissive layer, solution-processed multilayer OLEDs of two different colors were patterned using photolithography to fabricate a white-light source with a tunable emission spectrum. Furthermore, with more and more organic semiconductors being integrated into the circuitry of commercial products, good electrical models are needed for a circuit design with predictive capabilities. Therefore, a model for the example of an organic single-layer diode is introduced in the last chapter of this thesis. The model has been implemented into SPICE and consists of an equivalent circuit that is mostly based on intrinsic material properties, which can be measured in independent experiments. The model has been tested on four different organic materials, and good agreement between model and experimental results is shown. Equivalent circuit Copolymer Phosphorescence Solution-processing OLED Organic light-emitting diodes Light emitting diodes Electroluminescence Organic thin films Crosslinked polymers Polymers
59	Mise au point d’un procédé de réduction du pouvoir de combinaison des vins à base de biopolymères issus de la biomasse Saidane, Dorra 12 December 2011 (has links) L'objectif de cette étude est la diminution du pouvoir de combinaison du dioxyde de soufre des vins blancs liquoreux. La méthode retenue passe par l'élimination du vin de dérivés carbonylés naturellement présents et responsables de la formation de combinaisons bisulfitiques.Les dérivés carbonylés responsables de la plus grande partie du piégeage du dioxyde de soufre sont l'éthanal, l'acide pyruvique et l'acide 2-oxoglutarique. L'extraction de ces composés doit s'effectuer sans dénaturer les qualités organoleptiques du vin et sans générer l'apparition de nouvelles molécules dans le vin. Pour cela, la méthode retenue a été l'extraction liquide-solide : il s’agit de mettre en présence deux réactifs dont l’un l’agent d’extraction est fixé sur un support insoluble. Notre objectif est d’étudier la possibilité de substituer les polymères d’origine industrielle utilisés jusqu’à présent par des supports d’origine naturelle préparés à partir d’un constituant du bois : la lignine. Le recours à des supports d’origine naturelle, dérivé du bois, présente le double intérêt de permettre un meilleur contrôle des matériaux introduits dans le vin à traiter et de rendre les contaminations éventuelles provenant du traitement à priori, plus admissibles, étant constituées de composés déjà présents dans le bois de tonnellerie. / The objective of this study is the reduction of the power of sweet white wines sulfur dioxide combination. The method used relies on the extraction of carbonyl compounds from wine; these are naturally present and responsible for the formation of bisulfite combinations.The carbonyl compounds responsible for most of the trapping of sulfur dioxide are acetaldehyde, pyruvic acid and the 2-oxoglutaric. The extraction of these compounds should be done without altering the organoleptic qualities of wine and without creating the appearance of new molecules in wine. Therefore, the method we used was the liquid-solid extraction: bringing together two reactants, one of which -the extracting agent- is attached to an insoluble support.Our goal is to study the possibility of substituting the industrial polymers, used so far, by natural origin supports, prepared from a wood constituent: the lignin.The use of natural origin materials, deriving from wood, has the double advantage of allowing a better control of materials, introduced in the wine process, and making more acceptable the possible contaminations broad about by the a priori treatment, as they are compounds already present in the wood cooperage. Biomatériaux Lignine Bille de lignine réticulée Sulfonylhydrazine Dioxyde de soufre Biomaterials Lignin Crosslinked lignin beads Sulfonylhydrazine Sulfur dioxide
60	Swelling and Dye Adsorption Characteristics of Superabsorbent Polymers Sharma, Tarun January 2015 (has links) (PDF) In the current study, SAPs of cationic monomer [2 - (Methacryloyloxy) ethyl] trimethylammonium chloride have been prepared by free radical solution polymerisation with different crosslinkers. They were subjected to repeated cycles of swelling and de-swelling in DI water and NaCl solution. The conductivity of the swelling medium was measured and related to the swelling/de-swelling characteristics of the SAPs. The swelling capacity was also determined in saline solution. The swelling and de-swelling processes were described by first-order kinetics. The SAPs exhibited varied swelling capacity for crosslinkers of the same functionality as well as different functionality. The SAPs were used to adsorb, the dye Orange G at different initial concentrations of the dye. The equilibrium adsorption data followed the Langmuir adsorption isotherms. The SAPs were also used to adsorb three other dyes, Congo red, Amido black and Alizarin cyanine green. They exhibited different adsorption capacity for different dyes. The adsorption phenomenon was found to follow first order kinetics. In the later part of the study, the co-monomers of [2 - (Methacryloyloxy) ethyl] trimethylammonium chloride with zwitter-ionic monomers [2-(Methacryloyloxy)ethyl]dimethyl-(3-sulfopropyl)ammonium hydroxide and [3-(Methacryloylamino)propyl]dimethyl(3-sulfopropyl)ammonium hydroxide inner salt were prepared in turns at two different concentrations. The effect of the addition of the zwitter-ionic monomers and their concentration of the swelling capacity and dye adsorption capacity was studied. There was no effect on the swelling capacity of the polymers due to either the species of the zwitter-ionic monomer or their concentration. However, there was a reduction in soluble content of the polymers. The dye adsorption capacity decreased at the higher concentration of the zwitter-ionic monomer. Superabsorbent Polymers (SAPs) Crosslinked Polymers Polymerization Cationic Superabsorbent Polymers Superabsorbent Polymer Swelling Superabsorbent Polymers-Dye Adsorption Cationic-Zwitter Ionic Copolymers Swelling Theory Cationic SAP Swelling and Dye Chemical Engineering

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