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161	Influência dos parâmetros reacionais e da composição dos transportadores de oxigênio, aplicáveis aos processos de combustão e reforma do metano, com recirculação química / Influence of the reaction parameters and composition of oxygen carriers, applicable to the processes of chemical looping combustion and chemical looping reforming of methane Renato Dias Barbosa 10 December 2014 (has links) Impulsionados pela busca de fontes limpas de energia, surgem os processos de combustao com recirculacao quimica (CLC), e reforma com recirculacao quimica (CLR). CLC e CLR sao processos quimicos para oxidacao de hidrocarbonetos gasosos. E utilizada a acao de transportadores de oxigenio (TO), para transferir oxigenio do ar para o combustivel (neste caso o metano), evitando-se o contato direto entre ar atmosferico e metano por diversos motivos. Os TOs, compostos por oxidos metalicos na forma de po fino, circulam continuamente entre dois reatores de leito fluidizado (reator de ar e de combustivel), sofrendo sucessivos ciclos de reducao e oxidacao. Os processos se diferenciam com relacao aos produtos, em CLC objetiva-se a geracao de energia, atraves da oxidacao completa do combustivel, resultando em uma mistura de CO2 e H2O, podendo ser facilmente separada por condensacao. No caso do CLR a oxidacao ocorre de maneira parcial, dando origem a uma mistura de gas de sintese (H2 + CO). O CLC apresenta vantagens com relacao aos processos tradicionais de captura de CO2, pois nao se faz necessaria a utilizacao de processos secundarios para separacao gasosa, economizando assim energia, alem do fato de nao gerar gases do tipo NOx. O presente trabalho apresenta a preparacao de duas series de materiais, via impregnacao seca, uma com composicao 2, 4 e 8% m/m de oxido de niquel e outra com os mesmo teores de oxido de niobio, suportados sobre alumina comercial de alta area superficial especifica. Os materiais foram caracterizados pelas tecnicas de picnometria a helio, volumetria de nitrogenio, porosimetria por intrusao de mercurio, DRX, MEV, TPR 5%H2/N2 analisado com TCD em ChemBet, TPR 5%CH4/Ar e TPO 5%O2/Ar sendo a variacao de massa analisada em termobalanca (TGA/DSC), alem de se utilizar de espectrometria de massas para analise dos gases gerados. Os diferentes transportadores de oxigenio foram testados em reator de leito fixo, sendo avaliados em diferentes condicoes experimentais tais como: temperaturas de operacao, vazoes de reagentes gasosos, concentracoes de metano, adicao de CO2 e H2O ao combustivel. Os produtos da reacao no reator de leito fixo foram analisados por cromatografia gasosa e espectrometria de massa. Os resultados mostraram que; o deposito de carbono sobre o catalisador pode ser drasticamente reduzido com a adicao de mistura oxidante junto ao combustivel e que estes oxidos estudados tem potencial aplicacao industrial, mostrando-se seletivos para reforma do metano com consecutiva producao de gas de sintese. / Driven by the demand for clean energy sources, arise chemical-looping combustion - CLC, and chemical-looping reforming - CLR. CLC and CLR are chemical processes for oxidation of gaseous hydrocarbons. Both of them use the action of catalysts, here called oxygen carriers (OC), which transfers oxygen from the air to the fuel (in this case methane), avoiding the direct contact between the two gases for various reasons. The OC\'s are composed of metal oxides in the form of fine power, circle continuously between two fluidized bed reactors (fuel reactor and air reactor), suffering successive cycles of reduction and oxidation. The two processes differ in relation to the products; the aim of CLC is generation of energy (heat), through the complete oxidation of the fuel, resulting in a mixture of CO2 and H2O, which can be easily separated by condensation. In the case of CLR, the oxidation occurs partially, resulting in synthesis gas, a mixture of H2 and CO. The CLC processes shows advantages when compared to other traditional processes for capture of CO2, because it is not necessary to use secondary processes for gas separation, saving energy, besides the fact of no NOx is generated. This work describes the preparation of two series of materials via dry impregnation, which are composed of 2, 4 and 8% w/w niobium oxide or nickel oxide, supported on commercial alumina, with high specific surface area. The materials were characterized by the techniques of helium pycnometry, nitrogen volumetry, mercury intrusion porosimetry, DRX, MEV, TPR 5% H2/N2 analyzed with TCD in ChemBet, TPR 5% CH4/Ar and TPO 5% O2/Ar, being the changes in mass and heat analyzed in a thermogravimetric balance (TGA/DSC) coupled to a mass spectrometer permitting the analysis of the generated gases. The different oxygen carriers were tested in a fixed bed reactor, evaluated in different experimental conditions, such as operation temperature, flow rate of gaseous reactants, methane concentrations, addition of CO2 and H2O to the fuel. The products of the reaction in the fixed bed reactor were analyzed by gas chromatography and mass spectrometry. The results show that: the carbon deposits over the catalysts can be drastically reduced by addition of oxidizing mixture together to the fuel and these studied oxides have a potential industrial application, showing selectivity to reforming of methane with consecutive synthesis gas production. Captura de CO2 CLC Combustao catalitica Gas de sintese Nb2O5/Al2O3 NiO/Al2O3 Producao de hidrogenio Reforma catalitica Transportador de oxigenio Catalytic combustion Catalytic reforming CLC CO2 capture Hydrogen production Nb2O5/Al2O3 NiO/Al2O3 Oxygen carrier Synthesis gas
162	Influência dos parâmetros reacionais e da composição dos transportadores de oxigênio, aplicáveis aos processos de combustão e reforma do metano, com recirculação química / Influence of the reaction parameters and composition of oxygen carriers, applicable to the processes of chemical looping combustion and chemical looping reforming of methane Barbosa, Renato Dias 10 December 2014 (has links) Impulsionados pela busca de fontes limpas de energia, surgem os processos de combustao com recirculacao quimica (CLC), e reforma com recirculacao quimica (CLR). CLC e CLR sao processos quimicos para oxidacao de hidrocarbonetos gasosos. E utilizada a acao de transportadores de oxigenio (TO), para transferir oxigenio do ar para o combustivel (neste caso o metano), evitando-se o contato direto entre ar atmosferico e metano por diversos motivos. Os TOs, compostos por oxidos metalicos na forma de po fino, circulam continuamente entre dois reatores de leito fluidizado (reator de ar e de combustivel), sofrendo sucessivos ciclos de reducao e oxidacao. Os processos se diferenciam com relacao aos produtos, em CLC objetiva-se a geracao de energia, atraves da oxidacao completa do combustivel, resultando em uma mistura de CO2 e H2O, podendo ser facilmente separada por condensacao. No caso do CLR a oxidacao ocorre de maneira parcial, dando origem a uma mistura de gas de sintese (H2 + CO). O CLC apresenta vantagens com relacao aos processos tradicionais de captura de CO2, pois nao se faz necessaria a utilizacao de processos secundarios para separacao gasosa, economizando assim energia, alem do fato de nao gerar gases do tipo NOx. O presente trabalho apresenta a preparacao de duas series de materiais, via impregnacao seca, uma com composicao 2, 4 e 8% m/m de oxido de niquel e outra com os mesmo teores de oxido de niobio, suportados sobre alumina comercial de alta area superficial especifica. Os materiais foram caracterizados pelas tecnicas de picnometria a helio, volumetria de nitrogenio, porosimetria por intrusao de mercurio, DRX, MEV, TPR 5%H2/N2 analisado com TCD em ChemBet, TPR 5%CH4/Ar e TPO 5%O2/Ar sendo a variacao de massa analisada em termobalanca (TGA/DSC), alem de se utilizar de espectrometria de massas para analise dos gases gerados. Os diferentes transportadores de oxigenio foram testados em reator de leito fixo, sendo avaliados em diferentes condicoes experimentais tais como: temperaturas de operacao, vazoes de reagentes gasosos, concentracoes de metano, adicao de CO2 e H2O ao combustivel. Os produtos da reacao no reator de leito fixo foram analisados por cromatografia gasosa e espectrometria de massa. Os resultados mostraram que; o deposito de carbono sobre o catalisador pode ser drasticamente reduzido com a adicao de mistura oxidante junto ao combustivel e que estes oxidos estudados tem potencial aplicacao industrial, mostrando-se seletivos para reforma do metano com consecutiva producao de gas de sintese. / Driven by the demand for clean energy sources, arise chemical-looping combustion - CLC, and chemical-looping reforming - CLR. CLC and CLR are chemical processes for oxidation of gaseous hydrocarbons. Both of them use the action of catalysts, here called oxygen carriers (OC), which transfers oxygen from the air to the fuel (in this case methane), avoiding the direct contact between the two gases for various reasons. The OC\'s are composed of metal oxides in the form of fine power, circle continuously between two fluidized bed reactors (fuel reactor and air reactor), suffering successive cycles of reduction and oxidation. The two processes differ in relation to the products; the aim of CLC is generation of energy (heat), through the complete oxidation of the fuel, resulting in a mixture of CO2 and H2O, which can be easily separated by condensation. In the case of CLR, the oxidation occurs partially, resulting in synthesis gas, a mixture of H2 and CO. The CLC processes shows advantages when compared to other traditional processes for capture of CO2, because it is not necessary to use secondary processes for gas separation, saving energy, besides the fact of no NOx is generated. This work describes the preparation of two series of materials via dry impregnation, which are composed of 2, 4 and 8% w/w niobium oxide or nickel oxide, supported on commercial alumina, with high specific surface area. The materials were characterized by the techniques of helium pycnometry, nitrogen volumetry, mercury intrusion porosimetry, DRX, MEV, TPR 5% H2/N2 analyzed with TCD in ChemBet, TPR 5% CH4/Ar and TPO 5% O2/Ar, being the changes in mass and heat analyzed in a thermogravimetric balance (TGA/DSC) coupled to a mass spectrometer permitting the analysis of the generated gases. The different oxygen carriers were tested in a fixed bed reactor, evaluated in different experimental conditions, such as operation temperature, flow rate of gaseous reactants, methane concentrations, addition of CO2 and H2O to the fuel. The products of the reaction in the fixed bed reactor were analyzed by gas chromatography and mass spectrometry. The results show that: the carbon deposits over the catalysts can be drastically reduced by addition of oxidizing mixture together to the fuel and these studied oxides have a potential industrial application, showing selectivity to reforming of methane with consecutive synthesis gas production. Captura de CO2 Catalytic combustion Catalytic reforming CLC CLC CO2 capture Combustao catalitica Gas de sintese Hydrogen production Nb2O5/Al2O3 Nb2O5/Al2O3 NiO/Al2O3 NiO/Al2O3 Oxygen carrier Producao de hidrogenio Reforma catalitica Synthesis gas Transportador de oxigenio
163	Shaping Macroporous Ceramics : templated synthesis, X-ray tomography and permeability Andersson, Linnéa January 2011 (has links) Macroporous ceramic materials have found widespread technological application ranging from particulate filters in diesel engines, tissue engineering scaffolds, and as support materials in carbon capture processes. This thesis demonstrates how the pore space of macroporous alumina can be manipulated, analysed in three-dimensions (3D) using visualisation techniques, and functionalised with a CO2-adsorbing material. A novel method was developed to produce macroporous alumina materials: by combining sacrificial templating with thermally expandable polymeric microspheres and gel-casting of an alumina suspension. This method offers a versatile production of macroporous ceramics in which the level of porosity and the pore size distribution can easily be altered by varying the amount and type of spheres. The permeability to fluid flow could be regulated by controlling the connectivity of the pore space and the size of the smallest constrictions between the pores. Sacrificial templating with particle-coated expandable spheres significantly increased the fraction of isolated pore clusters and reduced both the sizes and the numbers of connections between neighbouring pores, compared to templating with un-coated spheres. The macroporous alumina materials were characterised with X-ray micro-computed tomography (μ-CT). The 3D data-sets obtained by X-ray μ-CT were used to calculate the spatial variation in porosity, the throat and pore size distributions and to calculate the permeability to fluid flow. The throat and pore size distributions were also able to be accurately quantified in only one extrusion and intrusion cycle with water-based porosimetry; a relatively novel and simple characterisation technique. The pore walls of the macroporous alumina materials were also coated with zeolite films by a colloidal processing technique. The CO2-uptake of the coated alumina materials and of hierarchically porous monoliths of zeolites was evaluated and compared. / As the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Submitted. Paper 4: Accepted. Paper 5: Manuscript. Paper 6: Submitted. Alumina ceramic CO2 capture colloidal processing expandable microspheres gel casting layer-by-layer macroporosity near-net shape non-destructive evaluation permeability porosity sacrificial templating X-ray computed tomography Chemistry Kemi
164	Untersuchung von Konzepten zur CO2-Abtrennung in Kombikraftwerken mit integrierter Wirbelschichtvergasung Rauchfuß, Hardy 19 June 2013 (has links) (PDF) Im Rahmen dieser Arbeit werden Konzepte für Gasaufbereitung in Kombikraftwerken mit integrierter Wirbelschichtvergasung und CO2-Abtrennung untersucht (IGCC-CCS). Dabei stehen die Konvertierung von Kohlenmonoxid (CO-Shift) und die Einbindung dieses Prozeß-schrittes in ein IGCC-CCS-Kraftwerk im Mittelpunkt. Ziel der Arbeit ist die energetische und wirtschaftliche Bewertung von Konzepten zur CO2-Abtrennung für ein ab 2015 baubares, grundlastfähiges IGCC-CCS-Kraftwerk der 800-MW-Klasse. Dazu werden neben den bekannten konventionellen, mehrstufigen Konzepten der Rohgas- und Reingas-Shift weitere alternative Ansätze zur Steigerung des Anlagenwirkungsgrades sowie zur Senkung der spezifischen CO2-Emission verfolgt. Die Ergebnisse der mit Hilfe von ASPEN Plus und EBSILON Professional durchgeführten Prozesssimulationen werden im Vergleich zu Dampfkraftwerken neuester Bauart wirtschaftlich bewertet. IGCC CCS CO2-Abtrennung COORIVA CO-Konvertierung CO-Shift Wirbelschichtvergasung IGCC CCS CO2-Capture COORIVA Water Gas Reaktion CO-Shift Fluidized Bed Gasification ddc:620 Gasreinigung Carbon dioxide capture and storage Wassergas-Shift-Reaktion Wirbelschichtvergasung Kombinationskraftwerk
165	Economic Evaluation of an Advanced Super Critical Oxy-Coal Power Plant with CO2 Capture Beigzadeh, Ashkan January 2009 (has links) Today’s carbon constrained world with its increasing demand for cheap energy and a fossil fuel intensive fleet of power producers is making carbon capture and storage (CCS) desirable. Several CCS technologies are under investigation by various research and development groups globally. One of the more promising technologies is oxy-fuel combustion, since it produces a CO2 rich flue gas which requires minor processing to meet storage condition requirements. In this study the economics of an advanced super critical oxy-coal power plant burning lignite, simulated in-house was assessed. A robust and user-friendly financial tool box has been developed with commonly acceptable default parameter settings. Capital, operation and maintenance costs were estimated along with corresponding levelized cost of electricity and CO2 avoidance costs calculated using the detailed financial model developed. A levelized cost of electricity of 131 $/MWhrnet along with a levelized CO2 avoidance cost of 64 $/tonne was estimated for an ASC oxy-coal power plant with CO2 capture. Also a levelized cost of electricity of 83 $/MWhrnet was estimated for an ASC air-fired coal power plant without CO2 capture capabilities as the base plant. The price of electricity was observed to increase from 83 $/MWhrnet to 131 $/MWhrnet translating into a 57% increase. The sensitivity of the overall economics of the process was assessed to several parameters. The overall economics was found sensitive to the choice chemical engineering plant cost index (CEPCI), capacity factor, size of power plant, debt ratio, fuel price, interest rate, and construction duration. CO2 capture oxy-fuel advanced super critical Carbon capture coal power plant levelized cost of electricity financial modelling LCOE avoidance cost oxy-coal CCS ASC CANMET Emission GHG Greenhouse gas Chemical Engineering
166	Economic Evaluation of an Advanced Super Critical Oxy-Coal Power Plant with CO2 Capture Beigzadeh, Ashkan January 2009 (has links) Today???s carbon constrained world with its increasing demand for cheap energy and a fossil fuel intensive fleet of power producers is making carbon capture and storage (CCS) desirable. Several CCS technologies are under investigation by various research and development groups globally. One of the more promising technologies is oxy-fuel combustion, since it produces a CO2 rich flue gas which requires minor processing to meet storage condition requirements. In this study the economics of an advanced super critical oxy-coal power plant burning lignite, simulated in-house was assessed. A robust and user-friendly financial tool box has been developed with commonly acceptable default parameter settings. Capital, operation and maintenance costs were estimated along with corresponding levelized cost of electricity and CO2 avoidance costs calculated using the detailed financial model developed. A levelized cost of electricity of 131 $/MWhrnet along with a levelized CO2 avoidance cost of 64 $/tonne was estimated for an ASC oxy-coal power plant with CO2 capture. Also a levelized cost of electricity of 83 $/MWhrnet was estimated for an ASC air-fired coal power plant without CO2 capture capabilities as the base plant. The price of electricity was observed to increase from 83 $/MWhrnet to 131 $/MWhrnet translating into a 57% increase. The sensitivity of the overall economics of the process was assessed to several parameters. The overall economics was found sensitive to the choice chemical engineering plant cost index (CEPCI), capacity factor, size of power plant, debt ratio, fuel price, interest rate, and construction duration. CO2 capture oxy-fuel advanced super critical Carbon capture coal power plant levelized cost of electricity financial modelling LCOE avoidance cost oxy-coal CCS ASC CANMET Emission GHG Greenhouse gas
167	Etude du captage post-combustion du co2 grâce à un procédé vsa (vacuum swing adsorption) avec de nouveaux adsorbants / Study of CO2 post-combustion capture by means of a VSA (Vacuum Swing Adsorption) process with new adsorbents Guilhamassé, François 09 July 2013 (has links) Pour faire face à l’augmentation des émissions de CO2 dans l’atmosphère à cause de la production électrique dans des centrales à charbon, le captage en post-combustion au moyen d’un procédé VSA est une solution envisageable. Les adsorbants utilisés dans notre étude sont la TEPA imprégnée sur SiO2, les oxydes de terre rare et le MOF (Metal Organic Frameworks) SIM-1. Pour chaque adsorbant, une étude du perçage puis de la régénération a été effectuée à partir d’une alimentation composée de 15%vol de CO2 et de N2. De ces essais, les conditions opératoires des cycles VSA ont été établies (durées des phases courtes, pas de circulation de purge). En cycle, les performances sont comparées à celle du procédé d’absorption avec la monoéthénolamine. La pureté du désorbat varie de 89,2%vol à 97,2%vol selon les adsorbants et les conditions opératoires. Elle est inférieure à celle du procédé d’absorption (99%vol) mais est correcte pour le transport et le stockage. Le taux de captage évolue de 87,2% à 94,9% (absorption : 98%). La consommation énergétique est inférieure à celle du procédé avec la MEA (de 1,53 à 3,45 MJ.kgCO2 1 pour notre procédé et 3,7 MJ.kgCO2¬1 pour l’absorption) Enfin la productivité est du même ordre de grandeur que celle d’autres procédés VSA de la littérature. Avec le modèle numérique, une étude locale de l’adsorbeur a été menée. Puis grâce à une étude paramétrique, des conditions optimales en cycle ont été déterminées. Les résultats obtenus ont permis de mettre en évidence des performances comparables avec les autres procédés VSA de la littérature. De plus, notre procédé est beaucoup moins énergivore que le procédé d’absorption mais la pureté du désorbat et le taux de captage en CO2 restent inférieurs. / To deal with the CO2 emissions increase in the atmosphere due to electricity production, CO2 post-combustion capture by VSA process is a promising solution. The adsorbents used in this study are impregnated TEPA on SiO2, lanthanide oxides and the MOF (Metal Organic Frameworks) SIM-1. For each adsorbent, a study of breakthrough and regeneration was carried out from a feed composed of 15%vol CO2 and N2. From these experiments, the cyclic operating conditions of VSA have been established (short duration phases, no purge). Cyclic performances are compared to that of the absorption process with monoethenolamine. The desorbate purity varies from 89.2% to 97.2%vol according to adsorbent and operating conditions. It is less than that obtained with absorption process (99%vol) but it is correct for transport and storage. The recovery varies from 87.2% to 94.2% (absorption: 98%). The energy consumption is less than that the process with the MEA (from 1.53 to 3.45 MJ.kgCO2 1 for our process and 3.7 MJ.kgCO2 1 for absorption). . Finally, the productivity is of the same order of magnitude as that of other VSA processes from literature. With the numerical model, a local study of the adsorber was carried out. Afterwards, through a parametric study, cycle optimal conditions were determined. The cycle results highlighted comparable performances with the other VSA processes from literature. Moreover, our process needs less energy than absorption process but the desorbate purity and CO2 recovery remain lower. Captage de CO2 Adsorption Vsa Post-combustion Amines imprégnées MOFs Oxydes de terre rare Étude expérimentale Étude numérique CO2 capture Adsorption Vsa Post-combustion Impregnated amines MOFs Lanthanide oxides Experimental study Numerical study 577
168	Étude de l’évolution de la réactivité des matériaux porteurs d’oxygène dans un procédé de combustion en boucle chimique / Study of the reactivity evolution of oxygen carriers in a chemical looping combustion process Tilland, Airy 04 December 2015 (has links) Le procédé de captage du dioxyde de carbone (CO2) par combustion fonctionnant en boucle chimique (Chemical Looping Combustion (CLC)) permet de produire de l’énergie à partir du méthane tout en captant le CO2 produit par la combustion. Ce procédé met en oeuvre un matériau porteur d’oxygène (NiO/NiAl2O4) qui est utilisé pour fournir de l’oxygène lors de la combustion du méthane et qui est ensuite régénéré sous air. Le matériau utilisé se dégrade au cours du temps ce qui accroît les coûts du procédé et diminue ses performances. L’étude présentée ici a pour objectif de déterminer quel est l’impact des phénomènes thermiques et chimiques sur la dégradation du matériau porteur d’oxygène. Les mécanismes réactionnels représentant la réduction et l’oxydation du porteur d’oxygène ont été déterminés et validés grâce à des études expérimentales et à la modélisation d’un réacteur parfaitement auto-agité (RPAA) et d’un réacteur à écoulement piston. L’importance du contrôle du dépôt de carbone dans le procédé a été démontrée. Ensuite, les paramètres cinétiques des réactions représentant la réduction de l’oxyde de nickel ont pu être déterminés grâce à un modèle original du RPAA, puis validés dans le réacteur piston. L’intérêt du RPAA pour la détermination de paramètres cinétiques dans le cas du procédé CLC a été présenté. Les paramètres obtenus permettent de prédire de manière correcte toutes les réactions même si un travail complémentaire est nécessaire pour obtenir une meilleure précision des résultats. Finalement, un mécanisme de dégradation du matériau porteur d’oxygène déduit des résultats expérimentaux a été proposé. Ce mécanisme décrit la production importante de fines particules se dissociant des grains et leur rôle dans les phénomènes d’agglomération observés. Le matériau support, supposé inerte, jouerait un rôle dans l’apport d’oxygène. La méthodologie développée dans ce travail pourrait être adaptée à l’analyse et la caractérisation d’autres matériaux porteurs d’oxygène / The Chemical Looping Combustion (CLC) process produces energy by combustion of methane while capturing the carbon dioxide (CO2). An oxygen carrier (NiO/NiAl2O4) is used to deliver oxygen during the combustion of methane. It is then regenerated by air. The oxygen carrier material degrades over time, which increases the costs of the process and reduces its performance. The present study aims at determining the impacts of thermal and chemical phenomena on the oxygen carrier degradations. The reaction mechanisms corresponding to the reduction and oxidation of the oxygen carrier are determined and validated through experimental studies and the modeling of a continuously auto-stirred tank reactor (CASTR) and a plug flow reactor. The importance of controlling the quantity of deposited carbon in the process is illustrated. Then, the kinetic parameters of the reactions representing the reduction of nickel oxide are determined with an original model of the CASTR and validated in the plug flow reactor. The interest of using the CASTR for the determination of kinetic constants of the reactions involved in CLC process is presented. The obtained parameters give a good description of all reactions even if additional work is required to obtain a better precision of the results. Finally, a degradation mechanism of the oxygen carrier has been proposed. This mechanism describes the large production of fine particles separated from the grains and their role in the observed agglomeration phenomena. The support material, supposed to be inert, provides some of its oxygen. The methodology developed in this work could be adapted for the analysis and the characterization of other oxygen-carriers Captage du CO2 Combustion en boucle chimique Modélisation Mécanisme de dégradation Paramètres cinétiques Réacteur parfaitement auto-Agité CO2 capture Chemical Looping Combustion Modeling Degradation mechanism Kinetic parameters Continuously auto-Stirred tank reactor 621.402 3 660.283 2
169	Untersuchung von Konzepten zur CO2-Abtrennung in Kombikraftwerken mit integrierter Wirbelschichtvergasung: Untersuchung von Konzepten zur CO2-Abtrennung in Kombikraftwerken mit integrierter Wirbelschichtvergasung Rauchfuß, Hardy 25 May 2012 (has links) Im Rahmen dieser Arbeit werden Konzepte für Gasaufbereitung in Kombikraftwerken mit integrierter Wirbelschichtvergasung und CO2-Abtrennung untersucht (IGCC-CCS). Dabei stehen die Konvertierung von Kohlenmonoxid (CO-Shift) und die Einbindung dieses Prozeß-schrittes in ein IGCC-CCS-Kraftwerk im Mittelpunkt. Ziel der Arbeit ist die energetische und wirtschaftliche Bewertung von Konzepten zur CO2-Abtrennung für ein ab 2015 baubares, grundlastfähiges IGCC-CCS-Kraftwerk der 800-MW-Klasse. Dazu werden neben den bekannten konventionellen, mehrstufigen Konzepten der Rohgas- und Reingas-Shift weitere alternative Ansätze zur Steigerung des Anlagenwirkungsgrades sowie zur Senkung der spezifischen CO2-Emission verfolgt. Die Ergebnisse der mit Hilfe von ASPEN Plus und EBSILON Professional durchgeführten Prozesssimulationen werden im Vergleich zu Dampfkraftwerken neuester Bauart wirtschaftlich bewertet. info:eu-repo/classification/ddc/620 ddc:620
170	CO2 Capture on Polymer-Silica Composites from Molecular Modeling to Pilot Scale Willett, Erik Amos 23 May 2018 (has links) No description available. Materials Science Physical Chemistry Chemical Engineering Chemistry Polymers Carbon capture CCUS amine DFT simulation FTIR spectroscopy ammonium carbamate material science reversible CO2 capture thermal swing adsorption zwitterion amine-CO2 reaction solid-supported silica chemical engineering reaction

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