Patents by Inventor Gary R. Gildert
Gary R. Gildert 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: 7745370Abstract: A catalyst for selective hydrogenation of acetylenes and diolefins, particularly in a raw gas feed stream for front end selective hydrogenation. The catalyst contains a low surface area carrier with a surface area from about 2-20 m2/g, wherein the pore volume of the pores of the carrier is greater than about 0.4 cc/g, at least 90 percent of the pore volume of the pores is contained within pores having a pore diameter greater than about 500 ? and about 1 to about 2 percent of the total pore volume is contained in pores with a pore diameter from about 500 to about 1,000 ?. The palladium comprises about 0.01 to about 0.1 weight % and a Group IB metal comprises about 0.005 to about 0.06 weight % of the catalyst.Type: GrantFiled: April 20, 2009Date of Patent: June 29, 2010Assignee: Sud-Chemie Inc.Inventors: Steven A. Blankenship, Jennifer A. Boyer, Gary R. Gildert
-
Publication number: 20090203520Abstract: A catalyst for selective hydrogenation of acetylenes and diolefins, particularly in a raw gas feed stream for front end selective hydrogenation. The catalyst contains a low surface area carrier with a surface area from about 2-20 m2/g, wherein the pore volume of the pores of the carrier is greater than about 0.4 cc/g, at least 90 percent of the pore volume of the pores is contained within pores having a pore diameter greater than about 500 ? and about 1 to about 2 percent of the total pore volume is contained in pores with a pore diameter from about 500 to about 1,000 ?. The palladium comprises about 0.01 to about 0.1 weight % and a Group IB metal comprises about 0.005 to about 0.06 weight % of the catalyst.Type: ApplicationFiled: April 20, 2009Publication date: August 13, 2009Applicant: Sud-Chemie Inc.Inventors: Steven A. Blankenship, Jennifer A. Boyer, Gary R. Gildert
-
Patent number: 7521393Abstract: A catalyst for selective hydrogenation of acetylenes and diolefins, particularly in a raw gas feed stream for front end selective hydrogenation. The catalyst contains a low surface area carrier with a surface area from about 2-20 m2/g, wherein the pore volume of the pores of the carrier is greater than about 0.4 cc/g, wherein at least 90 percent of the pore volume of the pores is contained within pores having a pore diameter greater than about 500 ? and wherein from about 1 to about 2 percent of the total pore volume is contained in pores with a pore diameter from about 500 to about 1,000 ?, palladium, wherein the palladium comprises from about 0.01 to about 0.1 weight percent of the catalyst, and a Group IB metal, wherein the Group IB metal comprises from about 0.005 to about 0.06 weight percent of the catalyst.Type: GrantFiled: July 27, 2004Date of Patent: April 21, 2009Assignee: Süd-Chemie IncInventors: Steven A. Blankenship, Jennifer A. Boyer, Gary R. Gildert
-
Patent number: 7255777Abstract: Improved HETP is obtained in the operation of a distillation column containing trays with a packing of a porous container containing a particulate material intimately associated with a resilient component having at least 50 volume % open space, preferably at least 70 volume % positioned on the trays compared to the trays without the packing. The packing may contain a catalytic particulate material and the distillation may involve reaction and distillation of the reaction products. The particulate material may also be inert and the distillation of the conventional type to separate components in the distillation mixture without reaction.Type: GrantFiled: August 19, 2005Date of Patent: August 14, 2007Assignee: Catalytic Distillation TechnologiesInventors: Lawrence A. Smith, Jr., Gary R. Gildert, James R. Fair, A. Frank Seibert
-
Patent number: 6717022Abstract: Acetylenic compounds in olefin streams such as mixed 1,3-butadiene were selectively hydrogenated over the supported copper catalysts on highly porous supports such as alumina, silica, etc. The preferred supports have the average pore diameter larger than about 200 Å, no micro pores, total pore volume larger than about 0.65 cc/g, and preferably less than about 230 m2/g BET surface area. The copper catalysts were preferably promoted with the Group VIII metal such as palladium to improve low activity of copper catalyst. The product stream typically contains less than 20 ppm total alkynes. Also the copper catalysts and the palladium promoted copper catalysts may be modified with zinc oxide to improve the performance of the catalysts. The reactor was loaded with two or more copper catalysts promoted with different levels of palladium.Type: GrantFiled: February 25, 2003Date of Patent: April 6, 2004Assignee: Catalytic Distillation TechnologiesInventors: J. Yong Ryu, Gary R. Gildert
-
Publication number: 20040000472Abstract: Improved HETP is obtained in the operation of a distillation column containing trays with a packing of a porous container containing a particulate material intimately associated with a resilient component having at least 50 volume % open space, preferably at least 70 volume % positioned on the trays compared to the trays without the packing. The packing may contain a catalytic particulate material and the distillation may involve reaction and distillation of the reaction products. The particulate material may also be inert and the distillation of the conventional type to separate components in the distillation mixture without reaction.Type: ApplicationFiled: November 20, 2002Publication date: January 1, 2004Applicant: CATALYTIC DISTILLATION TECHNOLOGIESInventors: Lawrence A. Smith, Gary R. Gildert, James R. Fair, A. Frank Seibert
-
Publication number: 20030171629Abstract: Acetylenic compounds in olefin streams such as mixed 1,3-butadiene were selectively hydrogenated over the supported copper catalysts on highly porous supports such as alumina, silica, etc. The preferred supports have the average pore diameter larger than about 200 Å, no micro pores, total pore volume larger than about 0.65 cc/g, and preferably less than about 230 m2/g BET surface area. The copper catalysts were preferably promoted with the Group VIII metal such as palladium to improve low activity of copper catalyst. The product stream typically contains less than 20 ppm total alkynes. Also the copper catalysts and the palladium promoted copper catalysts may be modified with zinc oxide to improve the performance of the catalysts. The reactor was loaded with two or more copper catalysts promoted with different levels of palladium.Type: ApplicationFiled: February 25, 2003Publication date: September 11, 2003Applicant: CATALYTIC DISTILLATION TECHNOLOGIESInventors: J. Yong Ryu, Gary R. Gildert
-
Patent number: 6592750Abstract: A process for the hydrodesulfurization of a cracked naphtha stream is disclosed where very little of the valuable olefins are saturated. The process is a two staged process wherein the H2S is removed between the stages to prevent recombinant mercaptans formation. Because the H2S is removed between the stages milder conditions can be used in the second stage polishing reactor to achieve the same desulfurization levels with less olefin loss.Type: GrantFiled: June 21, 2001Date of Patent: July 15, 2003Assignee: Catalytic Distillation TechnologiesInventors: Gary G. Podrebarac, Gary R. Gildert, Willibrord A. Groten
-
Patent number: 6576588Abstract: Acetylenic compounds in olefin streams such as mixed 1,3-butadiene were selectively hydrogenated over the supported copper catalysts on highly porous supports such as alumina, silica, etc. The preferred supports have the average pore diameter larger than about 200 Å, no micro pores, total pore volume larger than about 0.65 cc/g, and preferably less than about 230 m2/g BET surface area. The copper catalysts were preferably promoted with the Group VIII metal such as palladium to improve low activity of copper catalyst. The product stream typically contains less than 20 ppm total alkynes. Also the copper catalysts and the palladium promoted copper catalysts may be modified with zinc oxide to improve the performance of the catalysts. The reactor was loaded with two or more copper catalysts promoted with different levels of palladium.Type: GrantFiled: April 6, 2001Date of Patent: June 10, 2003Assignee: Catalytic Distillation TechnologiesInventors: J. Yong Ryu, Gary R. Gildert
-
Publication number: 20030036669Abstract: Acetylenic compounds in olefin streams such as mixed 1,3-butadiene were selectively hydrogenated over the supported copper catalysts on highly porous supports such as alumina, silica, etc. The preferred supports have the average pore diameter larger than about 200 Å, no micro pores, total pore volume larger than about 0.65 cc/g, and preferably less than about 230 m2/g BET surface area. The copper catalysts were preferably promoted with the Group VIII metal such as palladium to improve low activity of copper catalyst. The product stream typically contains less than 20 ppm total alkynes. Also the copper catalysts and the palladium promoted copper catalysts may be modified with zinc oxide to improve the performance of the catalysts. The reactor was loaded with two or more copper catalysts promoted with different levels of palladium.Type: ApplicationFiled: April 6, 2001Publication date: February 20, 2003Applicant: CATALYTIC DISTILLATION TECHNOLOGIESInventors: J. Yong Ryu, Gary R. Gildert
-
Patent number: 6495732Abstract: A process for the isomerization of mono-olefins in aliphatic hydrocarbon streams is carried out at 40 to 300° F. under low hydrogen partial pressure in the range of about 0.1 psi to less than 70 psi at 0 to 350 psig in a distillation column reactor containing a hydrogenation catalyst which serves as a component of a distillation structure, such as supported PdO encased in tubular wire mesh. Essentially no hydrogenation of the mono-olefins occurs.Type: GrantFiled: December 12, 2000Date of Patent: December 17, 2002Assignee: Catalytic Distillation TechnologiesInventors: Dennis Hearn, Robert P. Arganbright, Edward M. Jones, Jr., Lawrence A. Smith, Jr., Gary R. Gildert
-
Patent number: 6444118Abstract: A process for concurrently fractionating and treating of a full range naphtha stream. The full boiling range naphtha stream is first subjected to simultaneous thioetherification or selective hydrogenation and splitting into a light boiling range naphtha, an intermediate boiling range naphtha and a heavy boiling range naphtha. The intermediate boiling range naphtha containing thiophene and thiophene boiling range mercaptans, dienes or mixtures may be subjected to a second thioetherification or selective hydrogenation, depending on its make-up, and then passed on to a polishing hydrodesulfurization reactor or the entire intermediate stream may be passed directly to the polishing reactor. The bottoms are subjected to concurrent hydrodesulfurization and fractional distillation and the combined overheads and bottoms are fed to the polishing reactor.Type: GrantFiled: February 16, 2001Date of Patent: September 3, 2002Assignee: Catalytic Distillation TechnologiesInventors: Gary G. Podrebarac, Gary R. Gildert
-
Patent number: 6440299Abstract: A process for treating a light cracked naphtha to be used as an etherification feed stock is disclosed in which mercaptans, H2S and diolefins are removed simultaneously in a distillation column reactor using a reduced nickel catalyst. The mercaptans and H2S are reacted with the diolefins to form sulfides which are higher boiling than that portion of the naphtha which is used as feed to the etherification unit. The higher boiling sulfides are removed as bottoms along with any C6 and heavier materials. Any diolefins not converted to sulfides are selectively hydrogenated to mono-olefins for use in the etherification process.Type: GrantFiled: July 18, 2001Date of Patent: August 27, 2002Assignee: Catalytic Distillation TechnologiesInventors: Dennis Hearn, Gary R. Gildert, Hugh M. Putman
-
Patent number: 6420619Abstract: The C3 to C6 cut from a cracking process containing propylene, butane, 1-butene, 2-butene and acetylenic and diene components including butadiene are preferentially converted to propylene. The cut is simultaneously fractionated and catalytically hydrogenated to hydrogenate the acetylenic and diene components. The fractionation and subsequent separation recovers a C4 component comprising a mixture of isobutene, 1-butene and 2-butene. This C4 component is then further simultaneously fractionated and catalytically hydrogenated and hydroisomerized to hydrogenate remaining butadiene, remove isobutene overhead and convert 1-butene to 2-butene leaving a bottoms of 2-butene. The 2-butene is then injected with ethylene and catalytically metathesized to form propylene.Type: GrantFiled: January 25, 2001Date of Patent: July 16, 2002Inventors: Robert J. Gartside, Gary R. Gildert
-
Patent number: 6414205Abstract: A process for the selective hydrogenation of the methyl acetylene and propadiene (MAPD) in a propylene rich stream is disclosed wherein the selective hydrogenation is carried out stepwise (a) first in a single pass fixed bed reactor and then (b) in a distillation column reactor containing a supported PdO hydrogenation catalyst which serves as a component of a distillation structure. Conversion and selectivity to propylene in improved over the use of the single pass fixed bed reactor alone.Type: GrantFiled: March 24, 2000Date of Patent: July 2, 2002Assignee: Catalytic Distillation TechnologiesInventors: Stephen J. Stanley, Gary R. Gildert
-
Publication number: 20010050245Abstract: A process for treating a light cracked naphtha to be used as an etherification feed stock is disclosed in which mercaptans, H2S and diolefins are removed simultaneously in a distillation column reactor using a reduced nickel catalyst. The mercaptans and H2S are reacted with the diolefins to form sulfides which are higher boiling than that portion of the naphtha which is used as feed to the etherification unit. The higher boiling sulfides are removed as bottoms along with any C6 and heavier materials. Any diolefins not converted to sulfides are selectively hydrogenated to mono-olefins for use in the etherification process.Type: ApplicationFiled: July 18, 2001Publication date: December 13, 2001Applicant: CATALYTIC DISTILLATION TECHNOLOGIESInventors: Dennis Hearn, Gary R. Gildert, Hugh M. Putman
-
Publication number: 20010047952Abstract: A process for the hydrodesulfurization of a cracked naphtha stream is disclosed where very little of the valuable olefins are saturated. The process is a two staged process wherein the H2S is removed between the stages to prevent recombinant mercaptans formation. Because the H2S is removed between the stages milder conditions can be used in the second stage polishing reactor to achieve the same desulfurization levels with less olefin loss.Type: ApplicationFiled: June 21, 2001Publication date: December 6, 2001Applicant: CATALYTIC DISTILLATION TECHNOLOGIESInventors: Gary G. Podrebarac, Gary R. Gildert, Willibrord A. Groten
-
Patent number: 6303020Abstract: A process for the hydrodesulfurization of a cracked naphtha stream is disclosed where very little of the valuable olefins are saturated. The process is a two staged process wherein the H2S is removed between the stages to prevent recombinant mercaptans formation. Because the H2S is removed between the stages milder conditions can be used in the second stage polishing reactor to achieve the same desulfurization levels with less olefin loss.Type: GrantFiled: February 11, 2000Date of Patent: October 16, 2001Assignee: Catalytic Distillation TechnologiesInventors: Gary G. Podrebarac, Gary R. Gildert, Willibrord A. Groten
-
Patent number: 6274783Abstract: A process is disclosed for the concurrent production and hydrogenation of diisobutene in a single distillation column reactor containing both a dimerization catalyst and a hydrogenation catalyst by the dimerized of isobutene to diisobutene. The catalysts may be in alternating beds or physically mixed together in one or more beds. Alternatively a bifunctional catalyst having both dimerization and hydrogenation properties may be used.Type: GrantFiled: March 20, 2000Date of Patent: August 14, 2001Assignee: Catalytic Distillation TechnologiesInventors: Gary R. Gildert, Mitchell E. Loescher
-
Patent number: 6187980Abstract: A process for the production of cyclohexane by the hydrogenation of benzene is provided wherein the reactor is operated at a pressure wherein the reaction mixture is boiling under low hydrogen partial pressure in the range of about 0.1 psia to less than 200 psia at 0 to 350 psig overhead pressure. The catalyst is provided as a catalytic distillation structure such that the reaction is concurrently occurring with a distillation. The benzene is fed at a point above the bed and the hydrogen is fed below the bed. All of the overheads may be returned as reflux to provide cooling within the catalyst bed.Type: GrantFiled: September 29, 1999Date of Patent: February 13, 2001Assignee: Catalytic Distillation TechnologiesInventor: Gary R. Gildert