Patents by Inventor Sylvie Fradette
Sylvie Fradette has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20150104782Abstract: A method for CO2 capture may include operating a packed reactor comprising a reaction chamber containing packing including immobilized enzymes, by contacting a CO2 containing gas with a liquid solution in the reaction chamber to produce an ion-loaded solution and a CO2 depleted gas by an enzymatically catalyzed hydration reaction; monitoring enzyme activity of the immobilized enzymes; at a low enzyme activity threshold (i) stopping operation in the packed reactor, and (ii) replenishing the enzymatic activity by providing an enzyme replenishing solution into the packed reactor to contact the packing and provide a replenishing amount of the immobilized enzymes; and recommencing operation in the packed reactor for CO2 capture using the replenished immobilized enzymes. A corresponding system may include a packed reactor and an in situ enzyme supply device for supplying active enzyme within the reactor. The enzyme supply device may include spray nozzles with various configurations.Type: ApplicationFiled: May 16, 2013Publication date: April 16, 2015Applicant: C02 Solutions Inc.Inventors: Eric Madore, Sylvie Fradette, Jeremy Lawson
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Publication number: 20150024453Abstract: A method, process, apparatus, use and formulation for dual biocatalytic conversion of CO2 containing gas into carbon containing bio-products by enzymatic hydration of CO2 into bicarbonate ions in the presence of carbonic anhydrase and metabolic conversion of the bicarbonate ions into carbon containing bio-products in a biological culture. The dual biocatalytic conversion may be relatively constant with controlling a feeding of the bicarbonate ions to the biological culture in accordance with demands of the biological culture by retaining over-production of bicarbonate ions and feeding part of the over-production to the biological culture in accordance with nutrient demands of the biological culture. Bicarbonate ions may also be reconverted to generate a pure CO2 gas stream. The CO2 containing gas may be derived from operations of a power plant which receives a carbon-containing fuel for combustion, and the biological culture may be an algae culture.Type: ApplicationFiled: January 17, 2013Publication date: January 22, 2015Inventors: Sylvie Fradette, Chantal Guimond, Eric Madore, Glenn R. Kelly, Jonathan A. Carley, Geert F. Versteeg
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Publication number: 20140349366Abstract: A process for desorbing CO2 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 CO2 gas and water, thereby producing a CO2 gas stream and an ion-depleted solution.Type: ApplicationFiled: August 13, 2014Publication date: November 27, 2014Inventors: Sylvie Fradette, Julie Gingras, Norman Voyer, Jonathan Carley, Glenn R. Kelly, Olivera Ceperkovic
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Patent number: 8846377Abstract: A process for capturing CO2 includes contacting a CO2-containing gas with an absorption mixture optionally within a packed reactor is provided. The absorption mixture includes a liquid solution and micro-particles. The micro-particles include a support material and biocatalyst supported by the support material and are sized and provided in a concentration such that the absorption mixture flows through the packed reactor and that the micro-particles are carried with the liquid solution to promote dissolution and transformation of CO2 into bicarbonate and hydrogen ions. The absorption mixture and micro-particles may be provided in an absorption reactor so as to be pumpable. Furthermore, a process for desorbing CO2 gas from an ion-rich aqueous mixture includes providing biocatalytic micro-particles and feeding the mixture to a desorption reactor, to promote transformation of the bicarbonate and hydrogen ions into CO2 gas and water.Type: GrantFiled: August 4, 2010Date of Patent: September 30, 2014Assignee: CO2 Solutions Inc.Inventors: Sylvie Fradette, Julie Gingras, Normand Voyer, Jonathan Carley, Glenn R. Kelly, Olivera Ceperkovic
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Patent number: 8722391Abstract: A formulation and process for capturing CO2 use an absorption mixture containing water, biocatalysts and a carbonate compound. The process includes contacting a CO2-containing gas with the absorption mixture to enable dissolution and transformation of CO2 into bicarbonate and hydrogen ions, thereby producing a CO2-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 CO2 gas stream and an ion-depleted solution.Type: GrantFiled: August 4, 2010Date of Patent: May 13, 2014Assignee: CO2 Solutions Inc.Inventors: Sylvie Fradette, Julie Gingras, Jonathan Carley, Glenn R. Kelly, Olivera Ceperkovic
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Publication number: 20140106440Abstract: Techniques related to enhancement of CO2 absorption use selection of an enzyme coordinated with selection of an absorption solution having a pKa to enhance or maximize the CO2 capture rate. The techniques may use various relationships between process variables such as temperature, concentration, and so on, in order to provide efficient CO2 capture.Type: ApplicationFiled: June 11, 2012Publication date: April 17, 2014Applicant: CO2 SOLUTIONS INC.Inventors: Nathalie J.M.C. Penders, Peter W.J. Derks, Geert F. Versteeg, Eric Madore, Roger Sheldon, Normand Voyer, Sylvie Fradette, Jonathan Carley, Glenn R. Kelly
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Publication number: 20140099701Abstract: A formulation and process for capturing CO2 use an absorption mixture containing water, biocatalysts and an absorption compound selected from dimethylmonoethanolamine (DMMEA), diethylmonoethanolamine (DEMEA), and dimethylglycine. The process may include contacting a CO2-containing gas with the absorption mixture to enable dissolution and transformation of CO2 into bicarbonate and hydrogen ions, thereby producing a CO2-depleted gas and an ion-rich solution, followed by subjecting the ion-rich solution to desorption.Type: ApplicationFiled: December 13, 2013Publication date: April 10, 2014Applicant: CO2 SOLUTIONS INC.Inventors: Sylvie FRADETTE, Julie GINGRAS, Jonathan CARLEY, Glenn R. KELLY, Olivera CEPERKOVIC, Geert F. VERSTEEG
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Publication number: 20130244305Abstract: The present disclosure describes the efficient use of a catalyst, an enzyme for example, to provide suitable real cyclic capacity to a solvent otherwise limited by its ability to absorb and maintain a high concentration of CO2 captured from flue gas. This invention can apply to non-promoted as well as promoted solvents and to solvents with a broad range of enthalpy of reaction.Type: ApplicationFiled: April 23, 2013Publication date: September 19, 2013Inventors: Geert F. VERSTEEG, Sylvie FRADETTE, Olivera CEPERKOVIC, Frederic VITSE, Stephen A. BEDELL, Barath BABURAO
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Publication number: 20130203155Abstract: An enzyme-catalyzed desorption process for releasing CO2 gas from an ion-rich solution containing bicarbonate ions includes providing carbonic anhydrase in the ion-rich solution such that in a desorption unit the carbonic anhydrase is allowed to flow with the ion-rich solution while promoting conversion of the bicarbonate ions into CO2 gas and generating an ion-depleted solution and releasing the CO2 gas and the ion-depleted solution from the desorption unit. A CO2 capture process includes contacting a CO2-containing gas with a solution in an absorption unit, to convert CO2 into ions; feeding an ion-rich solution to a desorption unit wherein carbonic anhydrase is present within the ion-rich solution to generate an ion-depleted solution and, preferably, recycling the ion-depleted solution. Methods of decreasing the CO2 desorption temperature in a desorption unit, decreasing the CO2 desorption reactor size, and decreasing the CO2 desorption energy input in a desorption unit, are also described.Type: ApplicationFiled: October 28, 2011Publication date: August 8, 2013Applicant: CO2 SOLUTIONS INC.Inventors: Nathalie J.M.C. Penders, Peter W.J. Derks, Geert F. Versteeg, Sylvie Fradette
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Patent number: 8480796Abstract: Disclosed is a formulation for the absorption of CO2, which comprises water, at least one CO2 absorption compound and a carbonic anhydrase as an activator to enhance the absorption capacity of the CO2 absorption compound. The invention also concerns the use of carbonic anhydrase, in a CO2 absorption solution to increase the CO2 absorption rate of such solution.Type: GrantFiled: November 21, 2011Date of Patent: July 9, 2013Assignee: CO2 Solution Inc.Inventors: Sylvie Fradette, Olivera Ceperkovic
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Patent number: 8435479Abstract: A process is disclosed for recycling carbon dioxide emissions from a fossil-fuel power plant into useful carbonated species The process primarily comprises the steps of: a) burning the fossil fuel, thereby generating heat and a hot exhaust gas containing CO2; and b) converting the heat into energy. The process is characterized in that it further comprises the steps of: c) cooling the exhaust gas; and d) biologically transforming the CO2 contained in the cooled exhaust gas into carbonated species, thereby obtaining a low CO2 exhaust gas and producing useful carbonated species. The low CO2 exhaust gas obtained in step d) can be released in the atmosphere without increasing the problem of greenhouse effect.Type: GrantFiled: August 23, 2012Date of Patent: May 7, 2013Assignee: CO2 Solutions Inc.Inventors: Sylvie Fradette, Jean Ruel
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Publication number: 20130052720Abstract: An enzymatic process and bioreactor use elongated structures to enhance CO2 capture treatments. The enzymatic process and bioreactor treat a fluid by catalyzing reaction (I) with carbonic anhydrase, CO2+H2OHCO?3+H+ (|) by feeding the fluid into a reaction zone wherein a plurality of elongated structures extend through the reaction zone. Each elongated structure supports a flowing liquid layer comprising droplets. Reaction (I) occurs within the flowing liquid layer in the presence of the carbonic anhydrase, to produce a gas stream and a liquid stream which are released. The process and bioreactor can be used in an absorption, desorption or combined treatment context.Type: ApplicationFiled: November 4, 2010Publication date: February 28, 2013Applicant: CO2 SOLUTIONS INC.Inventors: Sylvie Fradette, Anne Belzil, Melanie Dion, Romain Parent
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Publication number: 20130011897Abstract: A process is disclosed for recycling carbon dioxide emissions from a fossil-fuel power plant into useful carbonated species The process primarily comprises the steps of: a) burning the fossil fuel, thereby generating heat and a hot exhaust gas containing CO2; and b) converting the heat into energy. The process is characterized in that it further comprises the steps of: c) cooling the exhaust gas; and d) biologically transforming the CO2 contained in the cooled exhaust gas into carbonated species, thereby obtaining a low CO2 exhaust gas and producing useful carbonated species. The low CO2 exhaust gas obtained in step d) can be released in the atmosphere without increasing the problem of greenhouse effect.Type: ApplicationFiled: August 23, 2012Publication date: January 10, 2013Applicant: CO2 Solutions Inc.Inventors: Sylvie Fradette, Jean Ruel
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Patent number: 8277769Abstract: A process is disclosed for recycling carbon dioxide emissions from a fossil-fuel power plant into useful carbonated species The process primarily comprises the steps of: a) burning the fossil fuel, thereby generating heat and a hot exhaust gas containing CO2; and b) converting the heat into energy. The process is characterized in that it further comprises the steps of: c) cooling the exhaust gas; and d) biologically transforming the CO2 contained in the cooled exhaust gas into carbonated species, thereby obtaining a low CO2 exhaust gas and producing useful carbonated species. The low CO2 exhaust gas obtained in step d) can be released in the atmosphere without increasing the problem of greenhouse effect.Type: GrantFiled: October 14, 2011Date of Patent: October 2, 2012Assignee: CO2 Solutions Inc.Inventors: Sylvie Fradette, Jean Ruel
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Patent number: 8273155Abstract: Disclosed is a formulation for the absorption of CO2, which comprises water, at least one CO2 absorption compound and a carbonic anhydrase as an activator to enhance the absorption capacity of the CO2 absorption compound. The invention also concerns the use of carbonic anhydrase, in a CO2 absorption solution to increase the CO2 absorption rate of such solution.Type: GrantFiled: March 31, 2011Date of Patent: September 25, 2012Assignee: CO2 Solutions Inc.Inventors: Sylvie Fradette, Olivera Ceperkovic
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Patent number: 8192531Abstract: Disclosed is a formulation for the absorption of CO2, which comprises water, at least one CO2 absorption compound and a carbonic anhydrase as an activator to enhance the absorption capacity of the CO2 absorption compound. The invention also concerns the use of carbonic anhydrase, in a CO2 absorption solution to increase the CO2 absorption rate of such solution.Type: GrantFiled: April 19, 2010Date of Patent: June 5, 2012Assignee: CO2 Solutions Inc.Inventors: Sylvie Fradette, Olivera Ceperkovic
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Publication number: 20120129236Abstract: A formulation and a process for CO2 capture, where a CO2-containing gas in contacted with water, biocatalyst and an amino acid compound, enabling the dissolution and transformation of the CO2 into bicarbonate ions and hydrogen ions, producing an ion-rich solution and a CO2-depleted gas. The amino acids may present slow absorption kinetics and having elevated stability such that absorption is enhanced in combination with the biocatalyst. The amino acid compound and the biocatalyst may be selected such that the active sites of the biocatalyst benefit from proton removal facilitated by the amino acid compounds, thus improving the CO2 absorption.Type: ApplicationFiled: August 4, 2010Publication date: May 24, 2012Applicant: CO2 SOLUTIONS INC.Inventors: Sylvie Fradette, Julie Gingras, Jonathan Carley, Glenn R. Kelly, Olivera Ceperkovic
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Publication number: 20120129246Abstract: A formulation and process for capturing CO2 use an absorption mixture containing water, biocatalysts and a carbonate compound. The process includes contacting a CO2-containing gas with the absorption mixture to enable dissolution and transformation of CO2 into bicarbonate and hydrogen ions, thereby producing a CO2-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 CO2 gas stream and an ion-depleted solution.Type: ApplicationFiled: August 4, 2010Publication date: May 24, 2012Applicant: CO2 SOLUTIONS INC.Inventors: Sylvie Fradette, Julie Gingras, Jonathan Carley, Glenn R. Kelly, Olivera Ceperkovic
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Publication number: 20120122195Abstract: A process for capturing CO2 includes contacting a CO2-containing gas with an absorption mixture optionally within a packed reactor is provided. The absorption mixture includes a liquid solution and micro-particles. The micro-particles include a support material and biocatalyst supported by the support material and are sized and provided in a concentration such that the absorption mixture flows through the packed reactor and that the micro-particles are carried with the liquid solution to promote dissolution and transformation of CO2 into bicarbonate and hydrogen ions. The absorption mixture and micro-particles may be provided in an absorption reactor so as to be pumpable. Furthermore, a process for desorbing CO2 gas from an ion-rich aqueous mixture includes providing biocatalytic micro-particles and feeding the mixture to a desorption reactor, to promote transformation of the bicarbonate and hydrogen ions into CO2 gas and water.Type: ApplicationFiled: August 4, 2010Publication date: May 17, 2012Inventors: Sylvie Fradette, Julie Gingras, Normand Voyer, Jonathan Carley, Glenn R. Kelly, Olivera Ceperkovic
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Publication number: 20120088292Abstract: Disclosed is a formulation for the absorption of CO2, which comprises water, at least one CO2 absorption compound and a carbonic anhydrase as an activator to enhance the absorption capacity of the CO2 absorption compound. The invention also concerns the use of carbonic anhydrase, in a CO2 absorption solution to increase the CO2 absorption rate of such solution.Type: ApplicationFiled: November 21, 2011Publication date: April 12, 2012Applicant: CO2 SOLUTION INC.Inventors: Sylvie Fradette, Olivera Ceperkovic