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Chemical and Biological Catalytic Enhancement of Weathering of Silicate Minerals as Novel Carbon Capture and StorageĬO2 Conversion to Methanol through Bi-reforming In this project which is located at eight top UK universities, we intend to capture some of the carbon dioxide produced in industrial processes and reconvert it into chemical feedstocks using advanced materials technology and specifically designed catalystsĬhemical Fixation of CO2 to Acrylates Using Low-Valent Molybdenum SourcesĬhemically Accelerated Carbon Mineralizationįrom to.
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The overall objective of this project was to develop and test an innovative emulsion system that utilized CO2 both to extract crude oil from semi-depleted oil wells and to permanently sequester and mineralize the CO2 in the reservoir.įrom to. Novel Process for the Synthesis of Dimethyl Carbonate via Urea Methanolysisįuels from Water, CO2 and concentrated sunlightĬO2 Capture Test Facility at Norcem BrevikĮco-friendly biorefinery fine chemicals from CO2 photocatalytic reductionĬO2Chem brings together academics, industrialists and policy makers over a wide range of disciplines to consider the utilisation of carbon dioxide as a single carbon chemical feedstock for the production of value added products.Ĭarbon Dioxide-Water Emulsion for Enhanced Oil Recovery and Permanent Sequestration of Carbon Dioxideįrom to. Optimization of a flexible technological chaine of CO2/H2O co-electrolysis and CO-hydrogenation into synthetic methane Use of Carbon Dioxide in Making Carbonate-Bond Precast Concrete ProductsĬatalytic Transformation of Waste Carbon Dioxide into Valuable Products CACHET aims to develop technologies to significantly reduce the cost of CO2 capture from natural gas with H2 production.Ĭarbon Mineralization by Aqueous Precipitation for Beneficial Use of Carbon Dioxide from Flue GasĬatalytic membrane Reactors based on New mAterials for C1-C4 valorization This CO2 will be collected and converted into calcium carbonates and carbonate bond aggregates for use in concrete products.ĬACHET - Carbon Dioxide Capture and Hydrogen Production from Gaseous Fuelsįrom to. McGill’s process uses an advanced self-concentrating absorption process to produce a low-cost CO2. Hydrogels are an important class of material that find numerous applications including tissue engineering and drug-delivery.īeneficial Use of Carbon Dioxide in Precast Concrete Production
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This proposal examines the synthesis and application of polymers derived from carbon dioxide as novel biodegradable hydrogel materials. The focus in this project is on integrated bioprocesses that couple a microalgae photobioreactor with an anaerobic digester.Īn Innovative and Highly Efficient Microalgae-Based Carbon Sequestration System to Reduce CO2 Emission and Produce Valuable Byproducts Including Biofuels in all ClimatesĪ newly isolated strain of fast growing, high CO2-tolerant microalgae to produce biofuels, lutein and other byproducts.ĪPPLICATION OF CARBON DIOXIDE IN THE SYNTHESIS OF HYDROPHILIC POLY(CARBONATE)S AS NOVEL BIODEGRADABLE HYDROGEL MATERIALS Operation of the plant began in Q4 2011 at Svartsengi.Įvaluate the capacity of bacterial enzymes for utilizing CO2 as a feedstock for organic chemicals or fuelsįrom CO2 capture from postcombustion flue gas by a membrane process to its valorization in a sustainable process of production of sodium bicarbonateĮnabling European SMEs to remediate wastes, reduce GHG emissions and produce biofuels via microalgae cultivationĪssessment of Integrated Microalgal-Bacterial Ecosystems for Bioenergy Production Its purpose is to improve plant economics for building larger plants and to gain operating experience, which includes validation of distribution channels and logistics of Renewable Methanol in Iceland and the EU. The George Olah Renewable Methanol Plant has a production capacity of 5 million liters per year.