Disclosed herein are compositions and methods for making and using improved carbonic anhydrases for novel, sustainable, and low energy CO.sub.2 waste gas scrubbing technologies that are also transformational carbon capture technologies. Embodiments of methods, systems and compositions disclosed herein include, but are not limited to, non-aqueous solvents, advanced membranes, sorbents, and cryogenic systems that significantly reduce the cost of CO.sub.2 capture from coal and natural gas-fired power plants and industrial facilities. Methods disclosed herein reduce the energy and cost required for CO.sub.2 separation and can be applied for both pre-combustion and post-combustion CO.sub.2 capture.

Provided are a protein variant of haloacid dehalogenase hdl4a and a method of reducing a concentration of a fluorine-containing compound in a sample using the protein variant.

A formulation and process for capturing CO.sub.2 use an absorption mixture containing water, biocatalysts and a carbonate compound. The process includes contacting a CO.sub.2-containing gas with the absorption mixture to enable dissolution and transformation of CO.sub.2 into bicarbonate and hydrogen ions, thereby producing a CO.sub.2-depleted gas and an ion-rich solution, followed by subjecting the ion-rich solution to desorption. The biocatalyst improves absorption of the mixture comprising carbonate compounds and the carbonate compound promotes release of the bicarbonate ions from the ion-rich solution during desorption, producing a CO.sub.2 gas stream and an ion-depleted solution.

A process for desorbing CO.sub.2 gas from an ion-rich aqueous mixture comprising bicarbonate and hydrogen ions, includes providing micro-particles in the ion-rich aqueous mixture; and feeding the ion-rich aqueous mixture into a desorption reactor; the micro-particles comprising a support material and biocatalysts supported and stabilized by the support material and being sized and provided in a concentration in the desorption reactor such that the micro-particles are carried with the ion-rich aqueous mixture to promote transformation of the bicarbonate and hydrogen ions into CO.sub.2 gas and water, thereby producing a CO.sub.2 gas stream and an ion-depleted solution.

Provided are a dehalogenase variant, a polynucleotide encoding the dehalogenase variant, a recombinant microorganism including a genetic modification that increases dehalogenase activity, a composition including the recombinant microorganism, and a method of reducing a concentration of fluorinated methane using the recombinant microorganism.

The present invention relates to a process of conversion of waste streams of petroleum refinery into industrially useful products.

Provided are a microorganism including a gene encoding a protein having a dehalogenase activity, a composition including the microorganism for use in reducing a concentration of a fluorine-containing compound in a sample, and a method of reducing the concentration of the fluorine-containing compound in the sample by using the microorganism.

Provided are a microorganism having activity in reducing a concentration of a fluorine-containing compound in a sample, a recombinant microorganism including a gene derived from the microorganism, and a method of reducing the concentration of the fluorine-containing compound in the sample by using the microorganism or recombinant microorganism.

Processes, methods, and apparatus for carbon sequestration utilizing catalysis schemes configured to provide high concentrations of hydrated CO.sub.2 in proximity with a sequestration agent are provided. Reactants are combined with catalyst such that at least two regions of controlled catalytic activity form encompassing at least the interface between a sequestration agent and an aqueous solution containing dissolved CO.sub.2. Suitable reactants include various sequestration agents, catalyst, and carbon dioxide dissolved in an aqueous solution (seawater, for example). Possible products include bicarbonate and metal cations.

Provided are a composition, a device, a filter, a method and the like, which convert toxic carbon monoxide and/or carbon dioxide in waste gas to formic acid without by-products at room temperature and at room pressure by using carbon monoxide dehydrogenase and formic acid dehydrogenase. The composition, the device, the filter, the method and the like enable the removal of carbon monoxide which is emitted in a great amount from industries such as petrochemical and steel industry and tobacco combustion, household cooking appliances, and various boiler combustion, through a cigarette filter, an air purifier, a household cooking appliance suction filter, a gas boiler, etc. Accordingly, the production method can be variously applied.