Patents by Inventor Simone ROLOFF-STANDRING
Simone ROLOFF-STANDRING 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).
-
Patent number: 12623211Abstract: A method for preparing a copper-containing catalyst is described comprising the steps of: (a) combining an acidic copper-containing solution with a basic precipitant solution in a first precipitation step to form a first precipitate, (b) combining an alkali metal aluminate solution with an acidic solution in a second precipitation step to form a second precipitate, (c) contacting the first and second precipitates together in a further precipitate mixing step to form a catalyst precursor, and (d) washing, drying and calcining the catalyst precursor to form the copper-containing catalyst, wherein at least 70% by weight of the copper in the catalyst is present in the first precipitate and a silica precursor is included in the first precipitation step, the second precipitation step or the precipitate mixing step, to provide a catalyst with a silica content, expressed as SiO2, in the range of 0.1 to 5.0 wt %.Type: GrantFiled: September 6, 2021Date of Patent: May 12, 2026Assignee: Johnson Matthey Davy Technologies LimitedInventors: Youxin Cui, Monica Garcia, Pauline Elizabeth Glen, Norman Macleod, Michael Thomas Nicholson, Simone Roloff-Standring, Kaamila Un Din
-
Patent number: 12533662Abstract: A catalyst suitable for use in carbon oxide conversion reactions is provided. The catalyst is in the form of a shaped unit formed from an oxidic catalyst powder and contains 30-70% by weight of copper oxide, zinc oxide, alumina and silica. The catalyst has a Si:Al atomic ratio in the range 0.005:1 to 0.15:1, a BET surface area >105 m2/g and a copper surface area >37 m2/g catalyst. The catalyst is prepared by a co-precipitation method using an alumina sol.Type: GrantFiled: March 16, 2020Date of Patent: January 27, 2026Assignee: Johnson Matthey Public Limited CompanyInventors: Monica Garcia-Dieguez, Pauline Elizabeth Glen, Norman Macleod, Neetisha Mistry, Michael Thomas Nicholson, Simone Roloff-Standring, Melanie Andrea Stanway
-
Publication number: 20250367642Abstract: A catalyst suitable for use in carbon oxide conversion reactions is described, said catalyst in the form of a shaped unit formed from an oxidic catalyst powder, said catalyst comprising 30-70% by weight of copper oxide, combined with zinc oxide, alumina and silica, having a Si:Al atomic ratio in the range 0.005 to 0.15:1, and having a BET surface area ?105 m2/g and a copper surface area >37 m2/g catalyst. The catalyst is prepared by a co-precipitation method using an alumina sol.Type: ApplicationFiled: August 22, 2025Publication date: December 4, 2025Inventors: Monica GARCIA-DIEGUEZ, Pauline Elizabeth GLEN, Norman MACLEOD, Neetisha MISTRY, Michael Thomas NICHOLSON, Simone ROLOFF-STANDRING, Melanie Andrea STANWAY
-
Publication number: 20250367643Abstract: A catalyst suitable for use in carbon oxide conversion reactions is described, said catalyst in the form of a shaped unit formed from an oxidic catalyst powder, said catalyst comprising 30-70% by weight of copper oxide, combined with zinc oxide, alumina and silica, having a Si:Al atomic ratio in the range 0.005 to 0.15:1, and having a BET surface area ?105 m2/g and a copper surface area >37 m2/g catalyst. The catalyst is prepared by a co-precipitation method using an alumina sol.Type: ApplicationFiled: August 22, 2025Publication date: December 4, 2025Inventors: Monica GARCIA-DIEGUEZ, Pauline Elizabeth GLEN, Norman MACLEOD, Neetisha MISTRY, Michael Thomas NICHOLSON, Simone ROLOFF-STANDRING, Melanie Andrea STANWAY
-
Patent number: 12409444Abstract: A method for preparing a copper-containing catalyst is described comprising the steps of: (a) combining an acidic copper-containing solution with a first basic precipitant solution in a first precipitation step to form a first precipitate, (b) combining an acidic aluminium-containing solution, further comprising one or more metal compounds selected from copper compounds, zinc compounds and promoter compounds, with a second basic precipitant solution in a second precipitation step to form a second precipitate, (c) contacting the first and second precipitates together in a further mixing step to form a catalyst precursor, and (d) washing, drying and calcining the catalyst precursor to form the copper-containing catalyst, wherein a silica precursor is included in the first precipitation step, the second precipitation step or the precipitate mixing step, to provide a catalyst with a silica content, expressed as S1O2, in the range of 0.1 to 5.0 wt %.Type: GrantFiled: September 6, 2021Date of Patent: September 9, 2025Assignee: Johnson Matthey Public Limited CompanyInventors: Youxin Cui, Monica Garcia, Pauline Elizabeth Glen, Norman Macleod, Michael Thomas Nicholson, Simone Roloff-Standring, Kaamila Un Din
-
Publication number: 20230303392Abstract: A process for the production of hydrogen is described, the process comprises the steps of: (a) generating a synthesis gas comprising hydrogen, carbon monoxide, carbon dioxide and steam in a synthesis gas generation unit; (b) increasing the hydrogen content of the synthesis gas and decreasing the carbon monoxide content by subjecting it to one or more water-gas shift stages in a water-gas shift unit to provide a hydrogen-enriched gas, (c) cooling the hydrogen-enriched gas and separating condensed water therefrom, (d) passing the resulting de-watered hydrogen-enriched gas to a carbon dioxide separation unit to provide a carbon dioxide gas stream and a hydrogen gas stream, wherein the synthesis gas from step (a) is fed without adjustment of the carbon monoxide content to a water gas shift reactor.Type: ApplicationFiled: September 14, 2021Publication date: September 28, 2023Inventors: Youxin CUI, Monica GARCIA, Pauline Elizabeth GLEN, Norman MACLEOD, Neetisha MISTRY, Michael Thomas NICHOLSON, Simone ROLOFF-STANDRING, Thomas SMITH, Helen Elizabeth STANNESS, Melanie Andrea STANWAY, Kaamila UN DIN
-
Publication number: 20230302439Abstract: A method for preparing a copper-containing catalyst is described comprising the steps of: (a) combining an acidic copper-containing solution with a basic precipitant solution in a first precipitation step to form a first precipitate, (b) combining an alkali metal aluminate solution with an acidic solution in a second precipitation step to form a second precipitate, (c) contacting the first and second precipitates together in a further precipitate mixing step to form a catalyst precursor, and (d) washing, drying and calcining the catalyst precursor to form the copper-containing catalyst, wherein at least 70% by weight of the copper in the catalyst is present in the first precipitate and a silica precursor is included in the first precipitation step, the second precipitation step or the precipitate mixing step, to provide a catalyst with a silica content, expressed as SiO2, in the range of 0.1 to 5.0 wt %.Type: ApplicationFiled: September 6, 2021Publication date: September 28, 2023Inventors: Youxin CUI, Monica GARCIA, Pauline Elizabeth GLEN, Norman MACLEOD, Michael Thomas NICHOLSON, Simone ROLOFF-STANDRING, Kaamila UN DIN
-
Publication number: 20230278015Abstract: A method for preparing a copper-containing catalyst is described comprising the steps of: (a) combining an acidic copper-containing solution with a first basic precipitant solution in a first precipitation step to form a first precipitate, (b) combining an acidic aluminium-containing solution, further comprising one or more metal compounds selected from copper compounds, zinc compounds and promoter compounds, with a second basic precipitant solution in a second precipitation step to form a second precipitate, (c) contacting the first and second precipitates together in a further mixing step to form a catalyst precursor, and (d) washing, drying and calcining the catalyst precursor to form the copper-containing catalyst, wherein a silica precursor is included in the first precipitation step, the second precipitation step or the precipitate mixing step, to provide a catalyst with a silica content, expressed as S102, in the range of 0.1 to 5.0 wt%.Type: ApplicationFiled: September 6, 2021Publication date: September 7, 2023Inventors: Youxin CUI, Monica GARCIA, Pauline Elizabeth GLEN, Norman MACLEOD, Michael Thomas NICHOLSON, Simone ROLOFF-STANDRING, Kaamila UN DIN
-
Publication number: 20220152597Abstract: A catalyst suitable for use in carbon oxide conversion reactions is described, said catalyst in the form of a shaped unit formed from an oxidic catalyst powder, said catalyst comprising 30-70% by weight of copper oxide, combined with zinc oxide, alumina and silica, having a Si:AI atomic ratio in the range 0.005 to 0.15:1, and having a BET surface area >105 m2/g and a copper surface area >37 m2/g catalyst. The catalyst is prepared by a co-precipitation method using an alumina sol.Type: ApplicationFiled: March 16, 2020Publication date: May 19, 2022Inventors: Monica GARCIA-DIEGUEZ, Pauline Elizabeth GLEN, Norman MACLEOD, Neetisha MISTRY, Michael Thomas NICHOLSON, Simone ROLOFF-STANDRING, Melanie Andrea STANWAY