Patents by Inventor Joseph C. Peters
Joseph C. Peters 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: 9199891Abstract: A process is disclosed for alkylating benzene contained in a benzene-containing refinery gasoline stream also comprising at least 0.1 wt % of at least one C6 to C8 olefin. In the process, the refinery gasoline stream is contacted under alkylation conditions with an alkylating agent selected from one or more C2 to C5 olefins in at least a first alkylation reaction zone and a second alkylation reaction zone connected in series to produce an alkylated effluent, which has reduced benzene content as compared with said refinery gasoline stream. All of the refinery gasoline stream is introduced into the first alkylation reaction stage, whereas an aliquot of the alkylated effluent is recycled and introduced to the second, but not the first, alkylation reaction zone.Type: GrantFiled: November 30, 2011Date of Patent: December 1, 2015Assignee: BADGER LICENSING LLCInventors: Shyh-Yuan H. Hwang, Ronald Birkhoff, Richard F. Guarino, J. Erik Moy, Joseph C. Peters
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Patent number: 9200215Abstract: In a process for alkylating benzene contained in a benzene-containing refinery gasoline stream, the benzene-containing refinery gasoline stream is contacted with an alkylating agent selected from one or more C2 to C5 olefins in at least one alkylation reaction zone under alkylation conditions to produce an alkylated effluent which has reduced benzene content as compared with said refinery gasoline stream and is essentially free of said alkylating agent. An aliquot of the alkylated effluent is then recycled to the one at least one alkylation reaction zone such that the molar ratio of alkylatable aromatic compounds to said alkylating agent in the combined refinery gasoline and recycle streams introduced into the at least one alkylation reaction zone is at least 1.0:1.Type: GrantFiled: November 30, 2011Date of Patent: December 1, 2015Assignee: BADGER LICENSING LLCInventors: Shyh-Yuan H. Hwang, Ronald Birkhoff, Richard F. Guarino, J. Erik Moy, Joseph C. Peters
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Publication number: 20130331626Abstract: In a process for alkylating benzene contained in a benzene-containing refinery gasoline stream, the benzene-containing refinery gasoline stream is contacted with an alkylating agent selected from one or more C2 to C5 olefins in at least one alkylation reaction zone under alkylation conditions to produce an alkylated effluent which has reduced benzene content as compared with said refinery gasoline stream and is essentially free of said alkylating agent. An aliquot of the alkylated effluent is then recycled to the one at least one alkylation reaction zone such that the molar ratio of alkylatable aromatic compounds to said alkylating agent in the combined refinery gasoline and recycle streams introduced into the at least one alkylation reaction zone is at least 1.0:1.Type: ApplicationFiled: November 30, 2011Publication date: December 12, 2013Applicant: BADGER LICENSING LLCInventors: Shyh-Yuan H. Hwang, Ronald Birkhoff, Richard F. Guarino, J. Erik Moy, Joseph C. Peters
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Publication number: 20130324776Abstract: A process is disclosed for alkylating benzene contained in a benzene-containing refinery gasoline stream also comprising at least 0.1 wt % of at least one C6 to C8 olefin. In the process, the refinery gasoline stream is contacted under alkylation conditions with an alkylating agent selected from one or more C2 to C5 olefins in at least a first alkylation reaction zone and a second alkylation reaction zone connected in series to produce an alkylated effluent, which has reduced benzene content as compared with said refinery gasoline stream. All of the refinery gasoline stream is introduced into the first alkylation reaction stage, whereas an aliquot of the alkylated effluent is recycled and introduced to the second, but not the first, alkylation reaction zone.Type: ApplicationFiled: November 30, 2011Publication date: December 5, 2013Applicant: BADGER LICENSING LLCInventors: Shyh-Yuan H. Hwang, Ronald Birkhoff, Richard F. Guarino, J. Erik Moy, Joseph C. Peters
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Patent number: 8445738Abstract: A process is described for producing cumene comprising contacting a feed stream comprising benzene and a further feed stream comprising isopropanol or a mixture of isopropanol and propylene in the presence of an alkylation catalyst comprising at least a molecular sieve of the MCM-22, family in an alkylation zone under alkylation conditions of at least partial liquid phase and with a water concentration in the liquid phase of at least 50 ppm to react at least part of said isopropanol and benzene to produce an effluent stream containing cumene.Type: GrantFiled: September 23, 2009Date of Patent: May 21, 2013Assignee: Badger Licensing LLCInventors: Shyh-Yuan Hwang, Dana E. Johnson, Joseph C. Peters, Chung-Ming Chi, Kevin J. Fallon, Francis A. Demers
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Publication number: 20110201858Abstract: In a process for producing cumene from acetone and benzene, a feed stream comprising acetone is contacted with hydrogen in the presence of a hydrogenation catalyst in a first reaction zone under hydrogenation conditions sufficient to convert at least part of the acetone to isopropanol and produce a first liquid effluent stream rich in isopropanol and a first vapor stream rich in unreacted hydrogen. Benzene is then added to at least part of the first liquid effluent stream, without intermediate purification of the first liquid effluent stream, and optionally to at least part of the first vapor stream, to form a second feed stream.Type: ApplicationFiled: September 23, 2009Publication date: August 18, 2011Applicant: BADGER LICENSING LLCInventors: Shyh-Yuan Henry Hwang, Dana E. Johnson, Joseph C. Peters, Chung-Ming Chi, Kevin J. Fallon, Francis A. Demers
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Publication number: 20110178342Abstract: A process is described for producing cumene comprising contacting a feed stream comprising benzene and a further feed stream comprising isopropanol or a mixture of isopropanol and propylene in the presence of an alkylation catalyst comprising at least a molecular sieve of the MCM-22 family in an alkylation zone under alkylation conditions of at least partial liquid phase and with a water concentration in the liquid phase of at least 50 ppm to react at least part of said isopropanol and benzene to produce an effluent stream containing cumene.Type: ApplicationFiled: September 23, 2009Publication date: July 21, 2011Applicant: BADGER LICENSING LLCInventors: Shyh-Yuan Henry Hwang, Dana E. Johnson, Joseph C. Peters, Chung-Ming Chi, Kevin J. Fallon, Francis A. Demers
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Patent number: 7745676Abstract: A process is described for producing an alkylaromatic compound, in which a first feed comprising an alkylatable aromatic compound and a second feed comprising an alkene are introduced into a first alkylation reaction zone comprising a first alkylation catalyst. The first alkylation reaction zone is operated under conditions effective to cause alkylation of the alkylatable aromatic compound by the alkene to produce said alkylaromatic compound, the conditions being such that the alkylatable aromatic compound is at least predominantly in the vapor phase. A first effluent comprising the alkylaromatic compound and unreacted alkylatable aromatic compound is withdrawn from the first alkylation reaction zone and at least part of the unreacted alkylatable aromatic compound is treated to remove catalyst poisons therefrom and produce a treated unreacted alkylatable aromatic stream.Type: GrantFiled: July 30, 2007Date of Patent: June 29, 2010Assignees: ExxonMobil Chemical Patents Inc., Stone & Webster, Inc.Inventors: Michael C. Clark, Vijay Nanda, Maruti Bhandarkar, Joseph C. Peters, Chung-Ming Chi, Brian Maerz
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Publication number: 20090036722Abstract: A process is described for producing an alkylaromatic compound, in which a first feed comprising an alkylatable aromatic compound and a second feed comprising an alkene are introduced into a first alkylation reaction zone comprising a first alkylation catalyst. The first alkylation reaction zone is operated under conditions effective to cause alkylation of the alkylatable aromatic compound by the alkene to produce said alkylaromatic compound, the conditions being such that the alkylatable aromatic compound is at least predominantly in the vapor phase. A first effluent comprising the alkylaromatic compound and unreacted alkylatable aromatic compound is withdrawn from the first alkylation reaction zone and at least part of the unreacted alkylatable aromatic compound is treated to remove catalyst poisons therefrom and produce a treated unreacted alkylatable aromatic stream.Type: ApplicationFiled: July 30, 2007Publication date: February 5, 2009Inventors: Michael C. Clark, Vijay Nanda, Maruti Bhandarkar, Joseph C. Peters, Chung-Ming Chi, Brian Maerz
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Patent number: 5739071Abstract: A method and apparatus are disclosed for regenerating and/or stabilizing the activity of a dehydrogenation catalyst used in dehydrogenating an alkylaromatic hydrocarbon to obtain an alkenylaromatic hydrocarbon, the method comprising the steps of continuously or intermittently adding to a reactant stream an effective amount of an alkali metal or alkali metal compound without interrupting the dehydrogenation reaction.Type: GrantFiled: March 18, 1996Date of Patent: April 14, 1998Assignee: Raytheon Engineers & Constructors, Inc.Inventors: Shiou-Shan Chen, Shyh-Yuan Hwang, Slawomir A. Oleksy, Sanjeev Ram, Joseph C. Peters
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Patent number: 5679878Abstract: This invention relates to a vapor phase process for the production of an alkyl styrene by the catalytic dehydrogenation of tertiary butylethylbenzene in the presence of catalysts containing iron oxides under conditions which minimize the undesirable thermal degradation of the raw material and the product while maintaining good yield and selectivity with low production of by-products. Specifically, it has been discovered that these desired results may be obtained by conducting the subject reaction at relatively low temperatures of between about 1000.degree. F. and about 1100.degree. F. and by maintaining a low partial pressure (i.e., not greater than about 0.5 psi) of the alkyl ethylbenzene in the reaction mixture. The desired partial pressure of the alkyl ethylbenzene is obtained by carrying out the catalytic reaction at a pressure of between about 1 psia and about 30 psia with steam as a diluent, the weight ratio of steam to alkyl ethylbenzene being between about 3 and about 30.Type: GrantFiled: October 28, 1992Date of Patent: October 21, 1997Assignee: Deltech CorporationInventors: Shiou-Shan Chen, Joseph C. Peters, Lionel C. Allmand
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Patent number: 5434325Abstract: The present invention provides an alkylation process which is highly selective towards the production of para-tertiarybutylethylbenzene in high yield and in high para isomer content, while minimizing the development of unwanted by-products and impurities during the alkylation reaction. In accordance with the process, a feed stream mixture comprising the olefin alkylating agent and a molar excess of an aromatic hydrocarbon substrate is introduced into the inlet of a reactor zone and through a bed of active zeolite alkylation catalyst under alkylation conditions such that substantially all of the olefin reacts with the aromatic substrate to produce a mixture comprising the alkylated product and unreacted aromatic compound. This mixture is continuously withdrawn from the reactor zone as reactor effluent, after which the effluent is split into a product stream and recycle stream.Type: GrantFiled: July 20, 1994Date of Patent: July 18, 1995Assignee: Deltech CorporationInventors: Shiou-Shan Chen, Joseph C. Peters
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Patent number: D456162Type: GrantFiled: August 27, 2001Date of Patent: April 30, 2002Inventor: Joseph C. Peters