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In addition to the avoidance and long-term storage (CCS) of anthropogenic CO2 emissions, the utilization of CO2 for the production of usable products is discussed as a possible method of reducing greenhouse gas emissions. The associated technologies are summarized under the term "Carbon Capture and Utilization" (CCU). CCU technologies have gained increasing attention in science and industry over the last decade and are considered essential for meeting the reduction goals of the Paris Agreement. The selection of research papers in this book, mostly focused on Power-to-X technologies and the catalytic conversion of CO2, are related to the most recent advancements in CCU technologies.
Technology: general issues --- History of engineering & technology --- blast furnace gas --- coke oven gas --- basic oxygen furnace gas --- methanation --- methanol synthesis --- aspen plus --- gas cleaning --- hydrogen --- steelworks sustainability --- catalytic dewaxing --- hydroprocessing --- lubricant production --- Fischer–Tropsch --- CO2 hydrogenation --- methanol --- caustic MgO --- bifunctional catalyst --- power-to-gas --- catalytic methanation --- biomass --- gasification --- synthetic natural gas --- steelworks --- real gases --- activated carbon --- catalyst poison and degradation
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In addition to the avoidance and long-term storage (CCS) of anthropogenic CO2 emissions, the utilization of CO2 for the production of usable products is discussed as a possible method of reducing greenhouse gas emissions. The associated technologies are summarized under the term "Carbon Capture and Utilization" (CCU). CCU technologies have gained increasing attention in science and industry over the last decade and are considered essential for meeting the reduction goals of the Paris Agreement. The selection of research papers in this book, mostly focused on Power-to-X technologies and the catalytic conversion of CO2, are related to the most recent advancements in CCU technologies.
Technology: general issues --- History of engineering & technology --- blast furnace gas --- coke oven gas --- basic oxygen furnace gas --- methanation --- methanol synthesis --- aspen plus --- gas cleaning --- hydrogen --- steelworks sustainability --- catalytic dewaxing --- hydroprocessing --- lubricant production --- Fischer–Tropsch --- CO2 hydrogenation --- methanol --- caustic MgO --- bifunctional catalyst --- power-to-gas --- catalytic methanation --- biomass --- gasification --- synthetic natural gas --- steelworks --- real gases --- activated carbon --- catalyst poison and degradation
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In addition to the avoidance and long-term storage (CCS) of anthropogenic CO2 emissions, the utilization of CO2 for the production of usable products is discussed as a possible method of reducing greenhouse gas emissions. The associated technologies are summarized under the term "Carbon Capture and Utilization" (CCU). CCU technologies have gained increasing attention in science and industry over the last decade and are considered essential for meeting the reduction goals of the Paris Agreement. The selection of research papers in this book, mostly focused on Power-to-X technologies and the catalytic conversion of CO2, are related to the most recent advancements in CCU technologies.
blast furnace gas --- coke oven gas --- basic oxygen furnace gas --- methanation --- methanol synthesis --- aspen plus --- gas cleaning --- hydrogen --- steelworks sustainability --- catalytic dewaxing --- hydroprocessing --- lubricant production --- Fischer–Tropsch --- CO2 hydrogenation --- methanol --- caustic MgO --- bifunctional catalyst --- power-to-gas --- catalytic methanation --- biomass --- gasification --- synthetic natural gas --- steelworks --- real gases --- activated carbon --- catalyst poison and degradation
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Produit à partir de déchets, le biogaz est une énergie qui peut être utilisée pour cuisiner, se chauffer, faire fonctionner un groupe électrogène ou faire rouler un véhicule. Avec ce manuel pratique, accessible à tous, apprenez comment mettre en place une installation biogaz à moindre coût. Il suffit pour cela de trouver de la matière organique et de posséder un minimum de surface pour l'installation.L'auteur partage ses expériences et donne les clefs nécessaires pour auto-construire une installation produisant du biogaz et les techniques pour l'utiliser avec en particulier un épurateur de biogaz fonctionnel permettant son utilisation dans un véhicule équipé GNV. Un nouveau pas vers l'autonomie énergétique. !
Biogaz --- Matière organique --- Méthanisation --- Matière organique --- Guides pratiques. --- Méthane --- Méthanisation --- Digestion anaérobie --- Biogaz. --- Guides pratiques et mémentos. --- Appareils et matériel. --- Methanation --- Sewage --- Biogas --- Equipment and supplies. --- Purification --- Anaerobic treatment
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Methanation --- Synthesis gas --- Congresses --- Chemistry --- Chemical & Materials Engineering --- Engineering & Applied Sciences --- Physical Sciences & Mathematics --- Chemical Engineering --- Chemistry - General --- 665.72 <063> --- -Synthesis gas --- Syngas --- Carbon monoxide --- Fuel --- Hydrogen --- Water-gas --- Fischer-Tropsch process --- Hydrogenation --- Gases (including liquefied gases)--Congressen --- Congresses. --- 665.72 <063> Gases (including liquefied gases)--Congressen --- Catalysis --- Fuel gases
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Forte de son succès, témoin de l’évolution des connaissances comme des technologies, La méthanisation fait aujourd’hui l’objet d’une troisième édition. Les contributions de trente spécialistes, chercheurs ou professionnels du secteur reconnus internationalement, dressent un panorama complet des aspects fondamentaux nécessaires à la connaissance du processus de méthanisation et à son exploitation. Cinq parties constituent cet ouvrage : Présentation de la microbiologie et de la mise en œuvre du processus ; Aspects législatifs : réglementation et sécurité ; Technologies de la méthanisation appliquées aux effluents et technologies appliquées aux déchets (urbains ou agricoles) ; Modes de valorisation du biogaz ; Aspects économiques. Alors que la France progresse en matière de traitement des déchets et de production d’énergie verte, les acteurs potentiels du secteur, en particulier les agences d’ingénierie et de conception, doivent encore approfondir leur connaissance du processus de méthanisation et des technologies pouvant être mises en œuvre pour l’exploiter. Les auteurs de cet ouvrage se sont fixé pour objectif de les y aider. Pour cela, ils ont choisi de consacrer une large place au génie des procédés et de multiplier les exemples concrets de mises en œuvre françaises, européennes ou plus lointaines. La méthanisation constitue également une somme d’informations unique en langue française pour les étudiants se spécialisant dans les domaines de l’environnement, des énergies renouvelables, du développement durable ou du génie des procédés.
Biogas --- Organic wastes --- Biofuels. --- Manure --- Méthane --- Biogaz --- Gaz de fumier --- Déchets organiques --- recycling --- recyclage --- Agrotechnology and Food Sciences. Food and Bioprocess Engineering --- Reactor Engineering --- Reactor Engineering. --- Manure. --- Méthane. --- Biogaz. --- Gaz de fumier. --- Recyclage. --- Boues d'épuration. --- Méthanogènes. --- Methane. --- Biogas. --- Methanation. --- Salvage (Waste, etc.) --- Sewage sludge. --- Biofuels --- Manyre --- Industrie et commerce. --- Recycling.
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Increasing attention is being paid to the development of effective technologies for the sequestration of CO2 and its storage. Hopefully, this will result in processes that can lead to its valorisation as a chemical, e.g., for the regeneration of fuels, but also for the production of intermediates. These are usually energy demands and rather slow processes, requiring energy input and catalysts. Some examples are the innovative strategies for the hydrogenation, photoconversion, or electroreduction of carbon dioxide. This book collects original research papers, reviews, and commentaries focused on the challenges related to the valorisation and conversion of CO2.
microwaves --- dimethyl carbonate --- n/a --- dynamic reaction conditions --- catalysis --- water sorption --- alkali promoter --- Titania --- high pressure photocatalysis --- diatomite --- photoreduction --- catalyst preparation --- dehydration --- CO2 reduction --- photocatalysis --- CO2 hydrogenation --- carbon dioxide --- mechanochemistry --- CO2 electro-reduction --- surface oxidation-reduction --- operando XAS --- metal-carbon-CNF composites --- carbon nanofibers --- ultrasound --- carbon-based electrodes --- water diffusion --- alkali oxide --- quick-EXAFS --- H2 dropout --- CO2 methanation --- plastic waste
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The detailed, descriptive information in this book is based on U.S. Patents, issued from January 1977 to December 1981, that relate to the production of C₁-based chemicals from synthesis gas.
Carbon monoxide --- Feedstock --- Hydrogen --- Synthesis gas. --- Syngas --- Fuel --- Water-gas --- Nonmetals --- Raw materials --- Carbonic oxide --- Gases, Asphyxiating and poisonous --- Synthesis gas --- Hydrogen. --- Methanation --- Organic compounds --- Fischer-Tropsch process --- Catalysis --- Zeolites --- Gas as fuel --- Coal --- Matières premières --- Gaz de synthèse --- Gaz (carburant) --- Monoxyde de carbone --- Hydrogène --- Fischer-Tropsch, Procédé --- Méthanisation --- Catalyse --- Zéolites --- Composés organiques --- Charbon --- Synthesis --- Synthèse --- Matières premières. --- Gaz de synthèse. --- Monoxyde de carbone. --- Hydrogène. --- Fischer-Tropsch, Procédé. --- Méthanisation. --- Catalyse. --- Zéolites. --- Charbon. --- Synthèse. --- Synthèse organique.
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This reprint contains contributions focusing on recent developments in the design, synthesis, and characterization of nanocatalysts intended for applications in environmental protection and low carbon footprint power generation processes thanks to the overall effort of scientists and researchers for a cleaner and more sustainable future. New synthetic approaches to the production and in-depth characterization of innovative nanostructured composites and hybrid materials with well-controlled textural and surface chemistry properties that give performance advantages in a variety of important environmental and energy applications such as CO2 utilization/recycling, hydrogen and syngas production, biosensing, and biocatalysis as well as in ways to obtain useful materials from waste are included, among others. This reprint is the result of one of the cutting-edge Special Issues in the field of Nanoscience and Nanotechnology organized by Nanomaterials to celebrate its 10th anniversary.
Technology: general issues --- History of engineering & technology --- nanocarbon --- rocket fuels --- furfuryl alcohol --- fuming nitric acid --- waste --- hypergolics --- carbon materials --- CO2 methanation --- bimetallic catalysts --- Ni-based catalysts --- promoters --- alloy nanoparticles --- bimetallic synergy --- hybrid nanoflowers --- biosynthesis --- influencing factors --- biosensing cues --- bio-catalysis --- propane --- steam reforming --- hydrogen production --- perovskite --- ruthenium --- rhodium --- La2O2CO3 --- stability --- propane steam reforming --- H2 production --- Ni --- TiO2 --- CeO2 --- YSZ --- ZrO2 --- Al2O3 --- drifts --- n/a --- HDO reaction --- transition metal phosphides --- structure --- acidity --- characterization
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