Patent application number | Description | Published |
20120103602 | Systems, Methods, and Devices for Tagging Carbon Dioxide Stored in Geological Formations - Methods and systems for tagging carbon dioxide to be stored in a geologic formation are disclosed. In some embodiments, a method includes: providing a carbon dioxide tracer that is quantifiable and distinguishable versus non-anthropogenic produced carbon dioxide; providing carbon dioxide to be stored in the geologic formation; determining what portion of the carbon dioxide is anthropogenic produced carbon dioxide; and mixing a predetermined quantity of the carbon dioxide tracer with the carbon dioxide stored to develop a tagged quantity of carbon dioxide for storage in the geologic formation. In some embodiments, a system for tagging a stream of carbon dioxide includes a tagging module and a mixing module. Tagging module includes a carbon dioxide tracer that is quantifiable and distinguishable versus non-anthropogenic produced carbon dioxide. Mixing module includes mechanisms for containing and injecting the carbon dioxide tracer into a stream of carbon dioxide. | 05-03-2012 |
20120225007 | Methods and Systems for Synthesizing Iron-Based Materials and Sequestering Carbon Dioxide - Methods and systems for sequestering carbon dioxide and generating hydrogen are disclosed. In some embodiments, the methods include the following: dissolving an iron based material that includes a carbonate-forming element into a solution including the carbonate-forming element and iron; increasing a pH of the solution to cause precipitation of iron oxide from the solution thereby generating a first source of Fe | 09-06-2012 |
20130193040 | SYSTEMS FOR AUTOMATED CAPTURE AND RECOVERY OF OIL FROM OIL-CONTAMINATED WATER AND SOLIDS - Systems for automated capture and recovery of oil from oil-contaminated water and solids are disclosed. In some embodiments, the systems include the following: a plurality of automated robotic oil recovery units; a plurality of deployable oil collection membranes positioned within each of the units, each of the membranes including an upper half including a material impermeable to both water and crude oil and a lower half including a semi-permeable hydrophilic membrane that is permeable to water but impermeable to crude oil; and a high pressure carbon dioxide oil solids separation unit for separating oil from oil-contaminated solids thereby producing substantially oil-free solids and an oil and carbon dioxide mixture; a solids separation unit for the separating substantially oil-free solids from the oil and carbon dioxide mixture via gravity separation; and an oil separation unit for separating oil from the oil and carbon dioxide mixture using a pressure swing. | 08-01-2013 |
20130209339 | Methods And Systems For Producing Hydrogen And Capturing Carbon Dioxide - Methods and systems for producing hydrogen and capturing carbon dioxide are disclosed. In some embodiments, the methods include the following: mixing magnesium bearing minerals with one or more acids and/or chelating agents to form a magnesium-rich solvent including magnesium hydroxide; mixing a gas including carbon dioxide with the magnesium-rich solvent in a reactor possibly in the presence of one or more water-gas shift catalysts; increasing a temperature and a steam pressure inside the reactor until a substantial portion of the magnesium hydroxide in the solvent and the carbon dioxide and water in the gas react to form magnesium carbonate and hydrogen; and increasing pH in the reactor thereby increasing a rate that the solvent and the carbon dioxide react. | 08-15-2013 |
20150014182 | Methods and Systems for Capturing Carbon Dioxide and Producing a Fuel Using a Solvent Including a Nanoparticle Organic Hybrid Material and a Secondary Fluid - Methods and systems for capturing carbon dioxide and producing fuels such as alcohol using a solvent including a nanoparticle organic hybrid material and a secondary fluid are disclosed. In some embodiments, the methods include the following: providing a solvent including a nanoparticle organic hybrid material and a secondary fluid, the material being configured to capture carbon dioxide; introducing a gas including carbon dioxide to the solvent until the material is loaded with carbon dioxide; introducing at least one of catalysts for carbon dioxide reduction and a proton source to the solvent; heating the solvent including the material loaded with carbon dioxide until carbon dioxide loaded on the material is electrochemically converted to a fuel. | 01-15-2015 |
20150033812 | Methods and Systems for the Co-Generation of Gaseous Fuels, Biochar, and Fertilizer From Biomass and Biogenic Wastes - Methods and systems for converting a biomass and biogenic wastes to hydrogen with integrated carbon dioxide capture and storage are disclosed. In some embodiments, the methods include the following: mixing at least one of a dry solid or liquid or liquid hydroxide and catalysts with a biomass to form a biomass mixture; heating the biomass mixture until the hydroxide and the biomass react to produce hydrogen, carbonate, biochar, and potentially fertilizer; calcining the carbonate or performing double replacement reactions of the carbonate to produce sequestration-ready carbon dioxide and a hydroxide; storing the carbon dioxide produced; transferring the hydrogen produced to a fuel cell; and generating electricity with the fuel cell. | 02-05-2015 |
20150044757 | Methods and Systems for Capturing and Storing Carbon Dioxide - Methods and systems for capturing and storing carbon dioxide are disclosed. In some embodiments, the methods include the following: mixing materials including magnesium or calcium with one or more acids and chelating agents to form a magnesium or calcium-rich solvent; using the organic acids derived from biogenic wastes as acids or chelating agents; generating carbonate ions by reacting a gas including carbon dioxide with a carbonic anhydrase biocatalyst; reacting the solvent with the carbonate ions to form magnesium or calcium carbonates; recycling a solution containing the biocatalyst after forming magnesium or calcium carbonates for re-use in the generating step; using the magnesium and calcium carbonates as carbon neutral filler materials and using the silica product as green filler materials or inexpensive absorbents. | 02-12-2015 |
20150157979 | Methods and Systems for Synthesizing Iron-Based Materials and Sequestering Carbon Dioxide - Methods and systems for sequestering carbon dioxide and generating hydrogen are disclosed. In some embodiments, the methods include the following: dissolving an iron based material that includes a carbonate-forming element into a solution including the carbonate-forming element and iron; increasing a pH of the solution to cause precipitation of iron oxide from the solution thereby generating a first source of Fe | 06-11-2015 |