Selective catalytic oxidation of methane to synthesis gas over complex oxides of cobalt and rare earth elements / Oxydation catalytique sélective du méthane en gaz de synthèse avec des oxydes mixtes de cobalt et des éléments des terres rares

Komissarenko, Dimitry

24 September 2015

Pour la première fois l'oxydation partielle du méthane en gaz de synthèse a été effectué en présence de pérovskites lamellaires Nd2-xCaxCoO4±δ et La2-xSrxCoO4±δ (x = 0.75; 1.0). Nouveau catalyseur d'oxydation partielle NdCaCoO3.96 de méthane a été suggéré qui permet d’obtenir la sélectivité en gaz de synthèse proche de 100% avec 90% de la conversion de CH4 (T = 900ºC; CH4/O2 = 2; W = 20 L·g-1·h-1; brevet russe № 2433950, 21/04/2010). Le catalyseur a été active et stable au moins 140 h, aucune tendance à la désactivation n’a été observée. Sur la base des analyses DRX, MEB et MET, il a été déterminé que l'activité et la sélectivité élevées de NdCaCoO3.96 ainsi que la stabilité dans l'oxydation partielle du méthane sont dues à sa transformation au cours de la réaction de la structure initiale en des nanoparticules de cobalt métallique dispersées dans Nd2O3-CaO matrice. Il a été observé que l'activité des pérovskites lamellaires dans l'oxydation partielle du méthane dépend à la fois de la taille des particules métalliques actives formées et à la stabilité de la structure initiale. / For the first time partial oxidation of methane to synthesis gas over layered perovskite-type oxides Nd2-xCaxCoO4±δ and La2-xSrxCoO4±δ (x = 0.75; 1.0) was investigated. New catalyst NdCaCoO3.96 for partial oxidation of methane was suggested allowing the selectivity toward synthesis gas close to 100% with 90% of CH4 conversion (T = 900ºC; CH4/O2 = 2; W = 20 L·g-1·h-1; Russian patent № 2433950, 21/04/2010). The catalyst was active and stable at least for 140 h, no trend to deactivation was observed. Based on XRD, SEM and TEM results it was determined that high activity and selectivity of NdCaCoO3.96 as well as stability in partial oxidation of methane are due to its transformation during reaction of initial structure to nanosized particles of metallic cobalt dispersed in Nd2O3-CaO matrix. It was observed that the activity of synthesized layered perovskite-type oxides in partial oxidation of methane depends both on the size of the formed active metallic particles and on the stability of initial structure.

Gaz de synthèse

Nd2-xCaxCoO4±δ

La2-xSrxCoO4±δ

Partial oxidation

Synthesis gas

Nd2-xCaxCoO4±δ

La2-xSrxCoO4±δ

541.39

CO2 adsorption from synthesis gas mixtures : understanding selectivity and capacity of new adsorbents / Adsorption de CO2 à partir de gaz de synthèse : compréhension de la sélectivité et capacité des nouveaux adsorbants

Garcia, Edder

22 October 2012

Le développement de nouveaux adsorbants écologiques et efficaces pour la séparation du CO2 nécessite un lien quantitatif entre les propriétés des adsorbants et ses propriétés d'adsorption. Dans ce travail, nous développons une méthodologie qui prend en compte explicitement les propriétés des adsorbants, tels que le diamètre de pore, la densité, la forme de pore et la composition chimique. L'objectif est d'établir des corrélations quantitatives entre les paramètres mentionnés ci-dessus et les forces qui gouvernent la physisorption dans les milieux poreux, c'est à dire les interactions van der Waals et les interactions électrostatiques. Ainsi, les propriétés optimales des adsorbants pour la séparation du CO2 sont identifiées. En parallèle à ces études théoriques, une série d'adsorbants potentiellement intéressants pour la séparation du CO2 par PSA ont été testées expérimentalement. Une étude systématique de l'influence du centre métallique sur les séparations de mélanges CO2/CH4 et CO2/CH4/CO a été réalisée sur MOFs présentant sites coordinativement insaturés. Dans le cas des zéolithes, l'effet de la composition chimie (rapport Si / Al) sur les propriétés de séparation a été étudiés. Les capacités cycliques et des sélectivités ont été déterminées par des expériences de perçage. Les matériaux présentant un bon compromis entre la sélectivité et la capacité de travailler dans les conditions typiques de PSA ont été identifiés. Finalement, une comparaison entre la prédiction du modèle d'adsorption et les expériences a été faite / The design of new environmentally friendly and efficient adsorbents for CO2 separation requires a quantitative link between the adsorbent properties and adsorption capabilities. In this work we develop a methodology, which explicitly takes into account the adsorbent properties, such as the pore diameter, density, pore shape and chemical composition. The objective is to establish quantitative correlations between the above-mentioned parameters and the forces that govern physisorption in porous media, i.e. van der Waals forces and electrostatic interactions. Thus, the optimal properties of the adsorbent for CO2 separation are identified. In parallel to these theoretical studies, a series of potentially interesting adsorbents for CO2 separation by PSA were tested experimentally. A systematic study of the influence of the metal center on the separations of CO2/CH4 and CO2/CH4/CO mixtures was carried out on MOFs presenting coordinatively unsaturated sites. In the case of zeolites, the effect of the framework composition (Si/Al ratio) on the separation properties was studied. The cyclic capacities and selectivities were determined by breakthrough experiments. Materials presenting a good compromise between selectivity and working capacity under typical PSA conditions were identified. Finally, a comparison between the prediction of the adsorption model and the breakthrough experiments is carried out

PSA

Modèle d’adsorption

Adsorbants

CO2

Séparation

Gaz de synthèse

Isothermes

Captage

PSA

Adsorption model

Adsorbents

CO2

Separation

Synthesis gas

Isotherm

Capture

662.93

Development of Cathode Catalysts for the Production of Synthesis Gas and Ammonia in Solid Oxide Electrolysis Cells

Deka, Dhruba Jyoti

January 2020

No description available.

Chemical Engineering

Characterization of Cu-Co-Cr-K Catalysts

Doan, Phuong Thanh

04 August 2001

The production of higher alcohols from synthesis gas over Cu-Co-Cr-K catalysts has been studied. The production rate of alcohol was measured in the flow reactor, operating at 250 to 350°C, 3500 to 8000 gas hourly space velocity, and 900 to 1800 psig. The productivity as a function of temperature, pressure, gas hourly space velocity, carbon dioxide content of the feed, and reaction time was also examined. Physisorption data have been analyzed using the Langmuir model, the Brunauer-Emmett-Teller (BET) method, the Barret-Joyner-Halenda (BJH) method, and the de Boer and Halsey t-method. The surface areas of catalysts CB1(1), CB1(3), and CB1(1) after reaction were 39.9 ± .9 m2/g, 28.9 ± 1.7 m2/g, and 26.5 ± 0.3 m2/g, respectively. Moreover, information such as pore size distribution, pore shape, monolayer volume, micropore volume and thickness of adsorption layer were also obtained. The atomic concentration and oxidation states of near surface species were established by X-ray Photoelectron Spectroscopy.

BJH method

BET method

t-method

x-ray photoelectron spectroscopy

Cu-Co-Cr-K catalysts

Langmuir model

physisorption

synthesis gas

Higher alcohol synthesis

Biomethanation of syngas: identification of metabolic pathways from CO in a natural anaerobic consortium

Sancho Navarro, Silvia

06 1900

Au cours des dernières décennies, l’intérêt pour la gazéification de biomasses a considérablement augmenté, notamment en raison de la grande efficacité de recouvrement énergétique de ce procédé par rapport aux autres procédés de génération de bioénergies. Les composants majoritaires du gaz de synthèse, le monoxyde de carbone (CO) et l’hydrogène (H2) peuvent entre autres servir de substrats à divers microorganismes qui peuvent produire une variété de molécules chimiques d’intérêts, ou encore produire des biocarburants, particulièrement le méthane. Il est donc important d'étudier les consortiums méthanogènes naturels qui, en syntrophie, serait en mesure de convertir le gaz de synthèse en carburants utiles. Cette étude évalue principalement le potentiel de méthanisation du CO par un consortium microbien issu d’un réacteur de type UASB, ainsi que les voies métaboliques impliquées dans cette conversion en conditions mésophiles. Des tests d’activité ont donc été réalisés avec la boue anaérobie du réacteur sous différentes pressions partielles de CO variant de 0.1 à 1,65 atm (0.09 à 1.31 mmol CO/L), en présence ou absence de certains inhibiteurs métaboliques spécifiques. Dès le départ, la boue non acclimatée au CO présente une activité carboxidotrophique relativement intéressante et permet une croissance sur le CO. Les tests effectués avec de l’acide 2- bromoethanesulfonique (BES) ou avec de la vancomycine démontrent que le CO est majoritairement consommé par les bactéries acétogènes avant d’être converti en méthane par les méthanogènes acétotrophes. De plus, un plus grand potentiel de méthanisation a pu être atteint sous une atmosphère constituée uniquement de CO en acclimatant auparavant la boue. Cette adaptation est caractérisée par un changement dans la population microbienne désormais dominée par les méthanogènes hydrogénotrophes. Ceci suggère un potentiel de production à large échelle de biométhane à partir du gaz de synthèse avec l’aide de biofilms anaérobies. / Syngas produced through the thermal gasification of biomass for energy recovery has received increased attention in the past decades due to its higher efficiency compared to other bioenergy processes. The gas components of syngas, CO and H2, can serve as substrates for the conversion of desirable chemicals and fuels, namely methane, by a wide range of microorganisms. Meanwhile, anaerobic wastewater-treating sludges have been reported as good sources of carboxidotrophic microorganisms which can be exploited for methane production. Thus it is important to investigate existing methanogenic consortiums which, in syntrophy, are able to convert syngas into useful fuels. This study is mainly focused on the assessment of the carboxidotrophic methanogenic potential present in a natural consortium of microorganisms from a UASB reactor and the identification of CO conversion routes to methane under mesophilic temperatures. To achieve this, a series of kinetic-activity tests with the anaerobic sludge were performed under CO partial pressures varying from 0.1 to 1.65 atm (0.09-1.31 mmol/L) in both the presence and absence of specific metabolic inhibitors. The non-adapted sludge presented an interesting carboxidotrophic activity potential for growing conditions on CO alone. Inhibition experiments with 2- bromoethanesulfonic acid (BES) and vancomycin showed that CO was converted mainly to acetate by acetogenic bacteria, which was further transformed to methane by acetoclastic methanogens. Moreover, it was possible to achieve higher methanogenic potential under 100% CO by acclimation of the sludge. This adaptation led to a shift in the microbial population predominated by hydrogenophilic methanogens. This suggests a possible enrichment potential with anaerobic biofilms for large scale methane production from CO-rich syngas, and further advances the knowledge base for anaerobic reactor development.

Monoxyde de carbone

Gaz de synthèse

Conversion anaérobie

Biométhanisation

Méthanogènes hydrogénotrophes

Méthanogènes acétotrophes

Boue granulaire

UASB

Carbon monoxide

Synthesis gas

Anaerobic conversion

Biomethanation

Hydrogenophilic methanogens

Granular UASB sludge

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

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

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

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

Biomethanation of syngas: identification of metabolic pathways from CO in a natural anaerobic consortium

Sancho Navarro, Silvia

06 1900

Au cours des dernières décennies, l’intérêt pour la gazéification de biomasses a considérablement augmenté, notamment en raison de la grande efficacité de recouvrement énergétique de ce procédé par rapport aux autres procédés de génération de bioénergies. Les composants majoritaires du gaz de synthèse, le monoxyde de carbone (CO) et l’hydrogène (H2) peuvent entre autres servir de substrats à divers microorganismes qui peuvent produire une variété de molécules chimiques d’intérêts, ou encore produire des biocarburants, particulièrement le méthane. Il est donc important d'étudier les consortiums méthanogènes naturels qui, en syntrophie, serait en mesure de convertir le gaz de synthèse en carburants utiles. Cette étude évalue principalement le potentiel de méthanisation du CO par un consortium microbien issu d’un réacteur de type UASB, ainsi que les voies métaboliques impliquées dans cette conversion en conditions mésophiles. Des tests d’activité ont donc été réalisés avec la boue anaérobie du réacteur sous différentes pressions partielles de CO variant de 0.1 à 1,65 atm (0.09 à 1.31 mmol CO/L), en présence ou absence de certains inhibiteurs métaboliques spécifiques. Dès le départ, la boue non acclimatée au CO présente une activité carboxidotrophique relativement intéressante et permet une croissance sur le CO. Les tests effectués avec de l’acide 2- bromoethanesulfonique (BES) ou avec de la vancomycine démontrent que le CO est majoritairement consommé par les bactéries acétogènes avant d’être converti en méthane par les méthanogènes acétotrophes. De plus, un plus grand potentiel de méthanisation a pu être atteint sous une atmosphère constituée uniquement de CO en acclimatant auparavant la boue. Cette adaptation est caractérisée par un changement dans la population microbienne désormais dominée par les méthanogènes hydrogénotrophes. Ceci suggère un potentiel de production à large échelle de biométhane à partir du gaz de synthèse avec l’aide de biofilms anaérobies. / Syngas produced through the thermal gasification of biomass for energy recovery has received increased attention in the past decades due to its higher efficiency compared to other bioenergy processes. The gas components of syngas, CO and H2, can serve as substrates for the conversion of desirable chemicals and fuels, namely methane, by a wide range of microorganisms. Meanwhile, anaerobic wastewater-treating sludges have been reported as good sources of carboxidotrophic microorganisms which can be exploited for methane production. Thus it is important to investigate existing methanogenic consortiums which, in syntrophy, are able to convert syngas into useful fuels. This study is mainly focused on the assessment of the carboxidotrophic methanogenic potential present in a natural consortium of microorganisms from a UASB reactor and the identification of CO conversion routes to methane under mesophilic temperatures. To achieve this, a series of kinetic-activity tests with the anaerobic sludge were performed under CO partial pressures varying from 0.1 to 1.65 atm (0.09-1.31 mmol/L) in both the presence and absence of specific metabolic inhibitors. The non-adapted sludge presented an interesting carboxidotrophic activity potential for growing conditions on CO alone. Inhibition experiments with 2- bromoethanesulfonic acid (BES) and vancomycin showed that CO was converted mainly to acetate by acetogenic bacteria, which was further transformed to methane by acetoclastic methanogens. Moreover, it was possible to achieve higher methanogenic potential under 100% CO by acclimation of the sludge. This adaptation led to a shift in the microbial population predominated by hydrogenophilic methanogens. This suggests a possible enrichment potential with anaerobic biofilms for large scale methane production from CO-rich syngas, and further advances the knowledge base for anaerobic reactor development.

Monoxyde de carbone

Gaz de synthèse

Conversion anaérobie

Biométhanisation

Méthanogènes hydrogénotrophes

Méthanogènes acétotrophes

Boue granulaire

UASB

Carbon monoxide

Synthesis gas

Anaerobic conversion

Biomethanation

Hydrogenophilic methanogens

Granular UASB sludge

Reforma a seco de metano com catalisadores Ni/MCM-41 sintetizados a partir de fontes alternativas de s?lica

Montenegro, Danielle Lobo

24 June 2013

Made available in DSpace on 2014-12-17T14:08:54Z (GMT). No. of bitstreams: 1 DanielleLM_DISSERT.pdf: 1223674 bytes, checksum: 2d564bea614284da929e26c705739bfb (MD5) Previous issue date: 2013-06-24 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / The production of synthesis gas has received renewed attention due to demand for renewable energies to reduce the emissions of gases responsible for enhanced greenhouse effect. This work was carried out in order to synthesize, characterize and evaluate the implementation of nickel catalysts on MCM-41 in dry reforming reactions of methane. The mesoporous molecular sieves were synthesized using as silica sources the tetraethyl orthosilicate (TEOS) and residual glass powder (PV). The sieves were impregnated with 10% nickel to obtain the metallic catalysts (Ni/MCM-41). These materials were calcined and characterized by Thermogravimetric Analysis (TG), Infrared spectroscopy (FTIR), X-ray Diffraction (XRD), Temperature-Programmed Reduction (TPR) and N2 Adsorption/Desorption isotherms (BET/BJH). The catalytic properties of the samples were evaluated in methane dry reforming with CO2 in order to produce synthesis gas to be used in the petrochemical industry. The materials characterized showed hexagonal structure characteristic of mesoporous material MCM-41 type, being maintained after impregnation with nickel. The samples presented variations in the specific surface area, average volume and diameter of pores based on the type of interaction between the nickel and the mesoporous support. The result of the the catalytic tests showed conversions about 91% CO2, 86% CH4, yelds about 85% CO and 81% H2 to Ni/MCM-41_TEOS_C, and conversions about 87% CO2, 82% CH4, yelds about 70% CO and 59% H2 to Ni/MCM-41_PV_C. The similar performance confirms that the TEOS can be replaced by a less noble materials / A produ??o de g?s de s?ntese tem recebido muita import?ncia devido a procura por fontes de energias renov?veis para reduzir as emiss?es dos gases respons?veis pelo aumento do efeito estufa. Este trabalho foi realizado com o objetivo de sintetizar, caracterizar e avaliar a aplica??o dos catalisadores de n?quel sobre MCM-41, em rea?oes de reforma a seco de metano. As peneiras moleculares mesoporosas foram sintetizadas utilizando como fontes de s?lica o Tetraetil Ortosilicato (TEOS) e o res?duo de p? de vidro (PV). As peneiras foram impregnadas com 10% de n?quel para forma??o dos catalisadores met?licos (Ni/MCM-41). Esses materiais foram calcinados e caracterizados por Termogravimetria (TG), Espectroscopia na Regi?o do Infravermelho (FTIR), Difratometria de raios X (DRX), Redu??o de Temperatura Programada (TPR) e Adsor??o e Dessor??o de N2 (BET/BJH). As propriedades catal?ticas das amostras foram avaliadas na reforma a seco de metano com CO2, tendo como objetivo a produ??o de g?s de s?ntese para utiliza??o na ind?stria petroqu?mica. Os materiais caracterizados apresentaram estrutura hexagonal caracter?stica do material mesoporoso tipo MCM-41, sendo mantida ap?s a impregna??o com n?quel. As amostras apresentaram varia??es quanto ? ?rea superficial espec?fica e volume m?dio de poros, em fun??o do tipo de intera??o existente entre o n?quel e o suporte mesoporoso. Os resultados dos testes catal?ticos mostraram convers?es de 86% de CH4 e 91% de CO2 e rendimento de 85% de CO e 81% de H2 para o material Ni/MCM-41_TEOS_C, e convers?es de 82% de CH4 e 87% de CO2 e rendimentos na produ??o do g?s de s?ntese de 70% de CO e 59% de H2 para o material Ni/MCM-41_PV. Esse comportamento semelhante comprova que o TEOS pode ser substitu?do por um material menos nobre

Global warming potential reduction by carbon dioxide utilization in the production of synthesis gas and its derivatives

Medrano, Juan Diego

16 September 2019

The indiscriminate emission of CO2 is drastically aggravating climate change. Carbon Capture and Utilization (CCU) was born as a complementary solution to this issue. This thesis studies the consumption of carbon dioxide in industrial processes, starting from synthesis gas, and using this building block in subsequent syntheses; ultimately integrating CO2 utilization with previously non-CO2 consuming processes.

Carbon dioxide utilization

Global Warming Potential (GWP)

Multi-objective optimization

Process synthesis superstructure

Generalized Disjunctive Programming

Synthesis gas

Syngas

Carbon monoxide

Methanol

Ethanol

Acetic acid

Dimethyl carbonate

DMC

Ingeniería Química