Patents by Inventor Martin Buelow
Martin Buelow 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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Patent number: 7347887Abstract: Composites and methods useful for oxygen sorption and other uses are presented, the composites comprising: (A) one or more crystalline ceramic oxides selected from compounds within general formula (1): AxA?x?ByB?y?O3-? and ??(1) (B) one or more crystalline ceramic oxides selected from compounds within general formulas (2), (3), (4), (5), (6), (7), and (8): A2BO4-???(2) A2B2O5-???(3) AO(ABO3-?)n??(4) AM2Cu3O7-???(5) Bi4V2(1-x)Me2xO11-3x,??(6) A?B?O3??(7) A2B2O7-?.Type: GrantFiled: December 6, 2004Date of Patent: March 25, 2008Assignee: The BOC Group, Inc.Inventors: Martin Bülow, Jürgen Böer, Wolfgang Burckhardt, Hans Ulrich Guth, Helmut Ullmann, Vladimir V. Vashook
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Patent number: 7338549Abstract: Compositions and methods useful for oxygen sorption and other uses are presented, the compositions A composite material comprising components (A) and (B), wherein component (A) is selected from crystalline ceramic materials capable of forming a stable, reversible perovskite crystal phase at elevated temperatures (T>500° C.), and combinations thereof, and component (B) comprises a metal selected from rhodium (Rh), platinum (Pt), palladium (Pd), nickel (Ni) and silver (Ag), and combinations and alloys of these metals.Type: GrantFiled: December 6, 2004Date of Patent: March 4, 2008Assignee: The BOC Group, Inc.Inventors: Martin Bülow, Jürgen Böer, Wolfgang Burckhardt, Hans Ulrich Guth, Helmut Ullmann, Vladimir V. Vashook
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Patent number: 7070752Abstract: Supported perovskite-type oxides are described. The perovskite-type oxides have the general formula of AxA?x?ByB?y?O3??, wherein A is an ion of a metal of Group IIIa or IIIb of the periodic table of elements or mixtures thereof; A? is an ion of a metal of Groups Ia or IIa of the periodic table or mixtures thereof; B and B? are ions of a d-block transition metal of the periodic table or mixtures thereof; x, x?, y and y? vary from 0 to 1; 0.95<x+x?<1.05; 0.95<y+y?<1.05; ? is the deviation from ideal oxygen stoichiometry. This invention also provides for the selection of support materials and the shapes of supported perovskite-type oxides as well as the methods for making them.Type: GrantFiled: January 19, 2005Date of Patent: July 4, 2006Assignee: The BOC Group, Inc.Inventors: Yongxian Zeng, Rudolph J. Wolf, Frank R. Fitch, Martin Bülow, Satish S. Tamhankar, Divyanshu R. Acharya
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Patent number: 6596256Abstract: Low silicon sodium X zeolite containing little or no sodium A zeolite as by-product, is prepared by direct synthesis from sodium ion-containing hydrogels, the crystallization step being carried out by maintaining the hydrogels at a temperature below about 70° C., and preferably in the range of about 50 to about 70° C. for the duration of the crystallization step. Preferably, the ratios of components in the solutions used to make the hydrogel are such that in the hydrogel the silica/alumina molar ratio will be in the range of about 2.25:1 to about 2.4:1; the sodium oxide to silica molar ratio will be in the range 1.6:1 to about 1.9:1; and the water to sodium oxide molar ratio will be greater than about 60:1.Type: GrantFiled: August 28, 2000Date of Patent: July 22, 2003Assignee: The BOC Group, Inc.Inventors: Adeola F. Ojo, Frank R. Fitch, Martin Bülow, Craig S. Gittleman, Sudhakar R. Jale
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Patent number: 6583081Abstract: Zeolites exchanged with lithium, rubidium, cesium cations and trivalent cations are prepared by first partially, fully or excessively ion-exchanging a sodium-containing zeolite, a potassium-containing zeolite or a sodium- and potassium-containing zeolite with trivalent cations, then calcining the partially, fully or excessively trivalent cation-exchanged zeolite, and then ion exchanging the calcined zeolite with lithium rubidium, cesium cations, thereby replacing hydrogen and any sodium and/or potassium cations remaining in the zeolite with lithium, rubidium, cesium cations, whereby trivalent cations present in the zeolite will not be substantially replaced by the lithium ions.Type: GrantFiled: February 1, 2001Date of Patent: June 24, 2003Assignee: The BOC Group, Inc.Inventors: Karl Seff, Hyun Sook P. Cordes, Martin Bülow, Frank R. Fitch, Adeola F. Ojo, Sudhakar R. Jale, Dongmin Shen
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Patent number: 6491740Abstract: The present invention provides for methods and compositions for gas separation and purification utilizing a metallo-organic polymer adsorbent in processes for separating carbon dioxide, water, nitrogen oxides and hydrocarbons from gas streams.Type: GrantFiled: July 11, 2000Date of Patent: December 10, 2002Assignee: The BOC Group, Inc.Inventors: Qing Min Wang, Dongmin Shen, Martin Bülow, Miu Ling Lau, Frank R. Fitch, Shuguang Deng
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Patent number: 6436171Abstract: The present invention provides for novel solid state O2-selective metal complex-based adsorbents and their utility for separating oxygen from a gas stream. In particular, the invention provides for an adsorption complex which contains four-coordinate O2-selective metal complexes including oligomeric/polymeric metal complexes, and organic base-containing polymers supported on porous materials.Type: GrantFiled: June 12, 2000Date of Patent: August 20, 2002Assignee: The BOC Group, Inc.Inventors: Qing Min Wang, Dongmin Shen, Miu Ling Lau, Martin Bülow, Frank R. Fitch, Norberto O. Lemcoff, Philip Connolly
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Patent number: 6432171Abstract: The present invention provides for a thermal swing adsorption process for the removal of trace impurities such as oxides of nitrogen and hydrocarbons from air prior to its separation by cryogenic distillation. The process may utilize three adsorbent layers, the first primarily removes water; the second primarily removes carbon dioxide; and the third layer is a composite adsorbent layer which removes the oxides of nitrogen and hydrocarbons from the air stream. Another embodiment employs a two layer adsorbent system to remove the impurities. Additionally, a single layer of composite adsorbent may be used to remove water, carbon dioxide, oxides of nitrogen, and hydrocarbons from the air stream.Type: GrantFiled: August 28, 2000Date of Patent: August 13, 2002Assignee: The BOC Group, Inc.Inventors: Ravi Kumar, Madhusudhan Huggahalli, Martin Bülow
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Patent number: 6416569Abstract: Nitrogen oxides and low molecular weight hydrocarbons are removed from air by subjecting the air to a temperature swing adsorption process using as the adsorbent a composite zeolite product containing both zeolite type A and zeolite type X. The composite zeolite product is prepared by crystallizing a sodium ion- or sodium ion- and potassium ion-containing alumina-silica hydrogel under conditions which result in the production of a zeolitic composite which contains both zeolite type A and zeolite type X crystal domains. In a preferred embodiment, calcium ions constitute a substantial number of the composite's exchangeable cations and the type X portion of the composite zeolite product has a silicon-to-aluminum atomic ratio in the range of 0.9 to less than 1.15. The nitrogen oxide- and hydrocarbon-selective adsorbent can be incorporated into an atmospheric air prepurification plant downstream of a water vapor-selective adsorbent and a carbon dioxide-selective adsorbent.Type: GrantFiled: August 28, 2000Date of Patent: July 9, 2002Assignees: The BOC Group, Inc., Chemiewerk Bad Köstritz GmbHInventors: Martin Bülow, Adeola F. Ojo, Frank R. Fitch, Baldur Unger, Alfons Brandt
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Patent number: 6409800Abstract: Nitrogen oxides and low molecular weight hydrocarbons are removed from air by subjecting the air to a temperature swing adsorption process using as the adsorbent a composite zeolite product containing both zeolite A and zeolite X. The composite zeolite product is preferably prepared by forming a mixture of an agglomerate of silica and sodium zeolite X having a Si/Al atomic ratio in the range of about 0.9 to less than about 1.2 and a water-soluble sodium aluminate salt; maintaining the mixture at a temperature in the range of about 25 to about 100° C. for a period of time sufficient to convert at least 50% of the silica to sodium zeolite A; and at least partially exchanging the zeolite A-containing product with divalent cations, preferably calcium ions.Type: GrantFiled: August 28, 2000Date of Patent: June 25, 2002Assignee: The BOC Group, Inc.Inventors: Adeola F. Ojo, Frank R. Fitch, Martin Bülow
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Patent number: 6407025Abstract: Zeolites exchanged with lithium cations and polyvalent cations are prepared by first partially ion-exchanging a sodium-containing zeolite, a potassium-containing zeolite or a sodium- and potassium-containing zeolite with polyvalent cations, then heat-treating the partially polyvalent cation-exchanged zeolite, then ion exchanging the heat-treated zeolite with ammonium cations, and then reacting the ammonium cation-exchanged zeolite with a water-soluble lithium compound under conditions which result in the removal of ammonia from the reaction zone.Type: GrantFiled: February 10, 2000Date of Patent: June 18, 2002Assignees: The BOC Group, Inc., Chemiewerk Bad Köstritz GmbHInventors: Alfons Brandt, Baldur Unger, Hartmut Tschritter, Martin Bülow, Frank R. Fitch, Adeola F. Ojo
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Patent number: 6391092Abstract: The present invention provides for a process for purifying atmospheric air prior to its separation by cryogenic distillation. The process utilizes three adsorbent layers, the first primarily removes water; the second primarily removes CO2; and the third layer is designed to remove displaced gas components such as N2O and hydrocarbons which are displaced by the second layer. It has been found that CaX type adsorbents provide the removal of N2O and hydrocarbons in the third layer.Type: GrantFiled: October 12, 1999Date of Patent: May 21, 2002Assignee: The BOC Group, Inc.Inventors: Dongmin Shen, Madhusudhan Huggahalli, Martin Bülow, Sudhakar R. Jale, Ravi Kumar
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Patent number: 6284021Abstract: A gas separation process comprising feeding a gaseous mixture comprising at least two components having different adsorption characteristics into an adsorption vessel containing at least one adsorbent material capable of preferentially adsorbing at least one of the gaseous components in the gaseous mixture and subjecting the gaseous mixture to non-cryogenic conditions which enable the preferentially adsorbable gaseous component in the gaseous mixture to adsorb onto the adsorbent material and separate from the non-adsorbed component in the gaseous mixture which pass through the adsorbent vessel wherein at least one adsorbent material in the adsorbent vessel comprises a composite particle having an inner core comprising a non-porous, non-adsorbent material and at least one outer layer comprising the adsorbent material. In another embodiment of the process of the present invention a hollow particulate adsorbent material is utilized.Type: GrantFiled: September 2, 1999Date of Patent: September 4, 2001Assignee: The BOC Group, Inc.Inventors: Yaping Lu, Shain-Jer Doong, Martin Bülow, Dongmin Shen, Divyanshu R. Acharya, Mark J. Andrecovich, Frank R. Fitch, Adeola Florence Ojo
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Patent number: 6238460Abstract: Substantially all of the carbon dioxide is removed from a gas containing up to about 1% by volume carbon dioxide by subjecting the gas to a pressure swing adsorption process using a two layer adsorption system, wherein the first layer contains activated alumina and the second layer is a zeolite or a combination of zeolites having a silicon to aluminum atomic ratio of at least 1.5. The process is particularly suitable for removing substantially all carbon dioxide and water vapor contained in air prior to subjecting the air to cryogenic distillation.Type: GrantFiled: March 26, 1999Date of Patent: May 29, 2001Assignee: The BOC Group, Inc.Inventors: Shuguang Deng, Ravi Kumar, Martin Bülow, Frank R. Fitch, Adeola Florence Ojo, Craig S. Gittleman
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Patent number: 6200366Abstract: Ethene is separated from a gas mixture containing ethane by a pressure swing adsorption process carried out at a temperature in the range of about 50 to about 200° C., wherein the adsorption step of the process is conducted by passing the gas mixture through an adsorption zone containing type A zeolite whose exchangeable cations are preferably made up of at least about 60 but not more than 75% sodium ions and more than 25 and up to about 40 percent potassium ions.Type: GrantFiled: September 1, 1999Date of Patent: March 13, 2001Assignee: The BOC Group, Inc.Inventors: Martin Bülow, Chang Jie Guo, Dongmin Shen, Frank R. Fitch, Arthur I. Shirley, Virginia A. Malik
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Patent number: 5178846Abstract: An economical and environmentally safe method for synthesizing wide-pore aluminophosphate crystalline molecular sieves primarily involves inorganic synthesis requiring no structure-directing organic templates. In addition to aluminium and phosphate, further components selected from group IV of the periodic table of elements can be added to synthesize multi-component phosphate molecular sieves such as germano-silico-alumino-phosphate crystalline structures.Type: GrantFiled: July 3, 1991Date of Patent: January 12, 1993Assignee: Vereinigte Aluminium-Werke A.G.Inventors: Martin Buelow, Elke Jahn, Ulrich Schuelke, Karl Becker, Peter Kraak, Roland Thome, Arno Tissler