Patents Assigned to Precision Combustion, Inc.
-
Patent number: 10076739Abstract: A chemical reactor for use in a chemical process wherein a reactant and/or a target product is prone to produce undesirable byproducts through secondary reactions. The reactor is configured with a first flow passage for passing a flow of an overly reactive reactant; a permeable first wall for controlled flow of the overly reactive reactant into a second flow passage providing a flow of a second reactant; a permeable second wall having a catalyst supported on an inner surface thereof for catalyzing reaction of the reactants flowing in the second flow passage; the permeable second wall passing through a flow containing the target product; and a non-permeable third wall defining a third flow passage for exiting the product mixture. The reactor can be employed in selective oxidation, oxidative dehydrogenation, and alkylation processes to reduce the formation of byproducts.Type: GrantFiled: July 16, 2015Date of Patent: September 18, 2018Assignee: PRECISION COMBUSTION, INC.Inventor: Jeffrey Weissman
-
Patent number: 10060344Abstract: A spark-ignited (SI) internal combustion (IC) engine designed to operate on high octane fuels, such as gasoline, is reconfigured to operate on low octane fuels including logistically preferred distillate fuels, such as diesel or JP-8. Design modifications involve coupling a fuel reformer module to the internal combustion engine. Auxiliary components include a system control module, a heat exchange module, a bypass valve to facilitate start-up, and/or a throttle body to control a reformate-oxidizer mixture fed to the engine. Small portable generators having 0.3-3.0 kWe power output are disclosed based upon the modified SI-IC engine design.Type: GrantFiled: August 14, 2015Date of Patent: August 28, 2018Assignee: PRECISION COMBUSTION, INC.Inventors: Subir Roychoudhury, Richard Mastanduno, David Lang Spence, Bruce Crowder, Curtis Morgan
-
Patent number: 10017706Abstract: A stabilized composition comprising a liquid hydrocarbon fuel, such as JP-8, and a fuel additive, wherein the fuel additive comprises a graphitic carbon compound functionalized with a plurality of alkyl groups, wherein at least one alkyl group at each site of alkyl functionalization on the graphitic carbon compound has 8 or more carbon atoms, for example, poly(octadecyl)-graphene oxide. A method of increasing the energy density of a liquid hydrocarbon fuel involving adding to the fuel one or more alkyl-functionalized graphitic carbon compounds. The stabilized composition is useful for enhancing the properties of combustion processes, including energy density, thrust, flame speed, or a combination thereof, without introducing undesirable combustion effects, emissions, or combustion signature.Type: GrantFiled: March 23, 2015Date of Patent: July 10, 2018Assignee: PRECISION COMBUSTION, INC.Inventors: Codruta Loebick, Jeffrey Weissman
-
Patent number: 10001278Abstract: An apparatus and method for operating a gas-fired burner on a liquid fuel. The apparatus integrates a catalytic liquid fuel reformer with a flame burner designed for operation on a gaseous fuel of high Wobbe Index, e.g., natural gas. The method involves reacting a mixture of a liquid fuel and oxidant in a catalytic reformer to obtain a gaseous reformate having a low Wobbe Index; and thereafter combusting the gaseous reformate, optionally augmented with liquid co-fuel and oxidant, in the gas-fired burner under diffusion flame conditions. The invention allows commercial gas-fired appliances, such as stoves, ovens, ranges, grills, griddles, stock pot burners, clothes dryers, hot water heaters, and boilers to be operated on a liquid fuel, which offers advantages in logistics and camp operations.Type: GrantFiled: December 28, 2015Date of Patent: June 19, 2018Assignee: PRECISION COMBUSTION, INC.Inventors: Subir Roychoudhury, Richard Mastanduno, Bruce Crowder, David Lang Spence, Francesco Macri, Julian David Prada Bernal
-
Patent number: 9903585Abstract: A catalytic burner comprising a burner chamber and a utilization chamber, the burner chamber functionally divided into a fuel-oxidant mixing zone and a catalytic combustion zone. The burner chamber occupies a space disposed between outer and inner tubular walls of the burner. The utilization chamber, which is a space bounded by the inner tubular wall, remains hollow for secondary useful purposes, for example, connection to a heat sink of a Stirling engine and/or incorporation of a second heat source (e.g., solar or geothermal heat source). Auxiliary system components can also be packaged into the utilization chamber. The burner can function in hybrid flame and/or flameless modes, and can further include a recuperator to capture heat by-passing the heat sink.Type: GrantFiled: April 10, 2015Date of Patent: February 27, 2018Assignee: PRECISION COMBUSTION, INC.Inventors: Bruce Crowder, Subir Roychoudhury, Richard Mastanduno
-
Patent number: 9446365Abstract: A Sabatier process involving contacting carbon dioxide and hydrogen in a first reaction zone with a first catalyst bed at a temperature greater than a first designated temperature; feeding the effluent from the first reaction zone into a second reaction zone, and contacting the effluent with a second catalyst bed at a temperature equal to or less than a second designated temperature, so as to produce a product stream comprising water and methane. The first and second catalyst beds each individually comprise an ultra-short-channel-length metal substrate. An apparatus for controlling temperature in an exothermic reaction, such as the Sabatier reaction, is disclosed.Type: GrantFiled: February 28, 2014Date of Patent: September 20, 2016Assignee: PRECISION COMBUSTION, INC.Inventors: Christian Junaedi, Kyle Hawley, Subir Roychoudhury
-
Patent number: 9433913Abstract: A novel catalytic reactor is provided for controlling the contact of a limiting reactant with a catalyst surface. A first flow vessel defines an interior surface and an exterior surface, and the interior surface has a catalyst deposited on at least a portion thereof. A second flow vessel is positioned within the first flow vessel and the second flow vessel defines a porous surface designed to deliver a fluid uniformly to at least a portion of the interior surface of the first flow vessel.Type: GrantFiled: October 22, 2013Date of Patent: September 6, 2016Assignee: PRECISION COMBUSTION, INC.Inventors: William C Pfefferle, Shahrokh Etemad
-
Patent number: 9371991Abstract: An apparatus and process for vaporizing and, optionally, igniting a liquid fuel, preferably, a distillate fuel. The apparatus includes the following components: a heat-conductive reticulated screen positioned within a chamber; a first inlet path into the chamber for delivering a liquid fuel onto the screen; a second inlet path into the chamber for contacting an oxidant with the screen and fuel; a means for heating the screen to a temperature sufficient to vaporize and, optionally, ignite the liquid fuel; and a recuperator in fluid communication with the chamber for transferring heat from the chamber to the second inlet path. The apparatus is suitably employed in compact and portable oxidation reactors, for example, in external combustion engines, catalytic partial oxidation reformers, and hybrid combustors operating in flame and/or catalytic modes.Type: GrantFiled: January 18, 2012Date of Patent: June 21, 2016Assignee: PRECISION COMBUSTION, INC.Inventors: Richard Mastanduno, David Spence, Subir Roychoudhury, Bruce Crowder
-
Patent number: 9337505Abstract: A process of reforming a liquid fuel comprising from greater than 50 ppmw sulfur to less than 400 ppmw sulfur, the process comprising contacting a liquid hydrocarbon fuel comprising one or more organosulfur compounds in a concentration from greater than 50 ppmw to less than 400 ppmw sulfur with an oxidant and steam or water, the contacting occurring in a catalyst bed comprising a reforming catalyst deposited on an ultra-short-channel-length metal substrate, such that the process is conducted at a peak catalyst temperature greater than 950° C. so as to produce a reformate mixture comprising hydrogen and carbon monoxide.Type: GrantFiled: March 31, 2012Date of Patent: May 10, 2016Assignee: PRECISION COMBUSTION, INC.Inventors: Subir Roychoudhury, Christian Junaedi, Dennis E. Walsh
-
Patent number: 9199846Abstract: A reforming process and apparatus exhibiting improved catalyst longevity towards reforming a high sulfur-containing liquid fuel. The process involves contacting in a first reforming zone a first oxidant and a liquid fuel containing high molecular weight organosulfur compounds with a partial oxidation catalyst under CPOX reaction conditions to form a first reformate stream containing a mixture of unconverted and partially-converted hydrocarbons and one or more low molecular weight sulfur compounds; and then contacting in a second reforming zone the first reformate stream with steam and optionally a second oxidant in the presence of an autothermal reforming catalyst under ATR reaction conditions to form a second reformate stream containing carbon monoxide and hydrogen and one or more low molecular weight sulfur compounds. The low molecular weight sulfur compounds can be readily removed from the first and/or second reformate streams by gas phase adsorption methods.Type: GrantFiled: October 3, 2011Date of Patent: December 1, 2015Assignee: Precision Combustion, Inc.Inventors: Subir Roychoudhury, Christian Junaedi, Saurabh Vilekar, Dennis E. Walsh
-
Patent number: 9102531Abstract: A method is provided for controlling the operating temperature of a catalytic reactor using a closed-loop system that provides for varying the reactor input and other operating parameters in order to maintain the operating temperature of the reactor at or near the initial setpoint temperature for operation of the reactor. In one example, maximum and minimum operating temperatures with a catalytic partial oxidation reactor are controlled, as well as maintaining control over the corresponding minimum required ratio of oxygen atoms to carbon atoms, such that the operating temperature within the reactor is maintained below the material limits but above threshold temperatures for coking.Type: GrantFiled: September 13, 2012Date of Patent: August 11, 2015Assignee: PRECISION COMBUSTION, INC.Inventors: Subir Roychoudhury, Joel M DesJardins, David Spence, Richard Mastanduno, Dennis E. Walsh, Lisa Burns
-
Patent number: 9027352Abstract: A method for operating a hydrogen-fueled gas turbine is provided wherein a supply of fuel is passed to a gas turbine combustor, and a supply of nitrogen and sufficient air to provide at least sufficient compressed air to the gas turbine for fuel combustion is passed to a compressor. A sufficient portion of the compressor discharge flow is passed to a combustor for fuel rich combustion of the fuel flow to the combustor and the fuel is combusted to produce hot combustion gases that are, in turn, passed to a turbine.Type: GrantFiled: November 10, 2011Date of Patent: May 12, 2015Assignee: Precision Combustion, Inc.Inventor: Lisa Burns
-
Patent number: 8864491Abstract: A method for low NOx combustion, without premixing of fuel and air prior to passage to a combustor, is provided wherein a fuel is injected into a reaction zone via an eductor thereby inducing an air flow and producing a fuel-rich mixture. The fuel-rich mixture is reacted and produces partial reaction products plus heat. A portion of the heat is to transferred to a cooling air stream and the cooled partial reaction products are brought into contact with the heated cooling air stream for combustion. Increased injection of the fuel results in an increased induction of the air flow.Type: GrantFiled: December 12, 2007Date of Patent: October 21, 2014Assignee: Precision Combustion, Inc.Inventors: William C. Pfefferle, Benjamin D. Baird, Shahrokh Etemad, Sandeep K. Alavandi
-
Patent number: 8795398Abstract: The present invention is an apparatus for the gasification of liquid fuels, involving: (a) a nozzle for atomizing and feeding a liquid fuel into a mixing region; (b) an inlet for feeding an oxidizer into the mixing region; (c) the mixing region for mixing the atomized fuel with the oxidizer; (d) a radiation hot box for vaporizing the liquid fuel, the radiation hot box comprising an ignition source positioned inside coiled catalytic reactor; (e) the coiled catalytic reactor comprising a coiled metal screen providing for a radial flow path from an inner diameter to an outer diameter of the coiled metal screen and providing for a plurality of void volumes in random order along the flow path from the inner diameter to the outer diameter; and (f) an outlet for exiting a gaseous reformate.Type: GrantFiled: June 3, 2011Date of Patent: August 5, 2014Assignee: Precision Combustion, Inc.Inventors: Subir Roychoudhury, Maxim Lyubovsky, Jonathan D. Berry
-
Patent number: 8784515Abstract: A process of catalytic partial oxidation of a hydrocarbon fuel with an oxidant to produce partially-oxidized reaction products including hydrogen, with simultaneous in-situ coke removal. The process involves feeding a hydrocarbon fuel and an oxidant to a reactor in a fuel-rich feed ratio; reacting the fuel and oxidant for a fuel-rich cycle-time so as to produce a partially-oxidized reaction product; varying the fuel feed, or the oxidant feed, or both feeds to produce a fuel-lean feed to the reactor; maintaining the fuel-lean feed for a fuel-lean cycle-time sufficient to reduce coke deposits while maintaining a substantially constant yield of partially-oxidized reaction product; and alternating between the fuel-rich and fuel-lean operating cycles.Type: GrantFiled: October 14, 2010Date of Patent: July 22, 2014Assignees: Precision Combustion, Inc., Honda Motor Co., Ltd.Inventors: Subir Roychoudhury, Richard Mastanduno, David Spence, Jun Iwamoto, Go Motohashi
-
Publication number: 20140178270Abstract: A Sabatier process involving contacting carbon dioxide and hydrogen in a first reaction zone with a first catalyst bed at a temperature greater than a first designated temperature; feeding the effluent from the first reaction zone into a second reaction zone, and contacting the effluent with a second catalyst bed at a temperature equal to or less than a second designated temperature, so as to produce a product stream comprising water and methane. The first and second catalyst beds each individually comprise an ultra-short-channel-length metal substrate. An apparatus for controlling temperature in an exothermic reaction, such as the Sabatier reaction, is disclosed.Type: ApplicationFiled: February 28, 2014Publication date: June 26, 2014Applicant: Precision Combustion, Inc.Inventors: Christian Junaedi, Kyle Hawley, Subir Roychoudhury
-
Patent number: 8739550Abstract: The present invention provides a combustor for an aerospace gas turbine engine comprising two stages wherein each stage defines an inlet and an exit. The second stage inlet is in fluid communication with the first stage exit such that a first flowpath is defined and it passes substantially through the second stage. A plurality of flow channel tubes is positioned within the second stage and each flow channel tube passes sealingly through a header plate positioned upstream of the second stage inlet thereby defining a second flowpath that also passes substantially through the second stage. The first flowpath exit and the second flowpath exit are positioned adjacent and proximate to one another to provide for the generation of microflames or microflame jets exiting the second stage from between and around the flow channel tube exits. The first stage of the combustor provides a gasifier and a reformer.Type: GrantFiled: September 30, 2010Date of Patent: June 3, 2014Assignee: Precision Combustion, Inc.Inventors: Shahrokh Etemad, Benjamin D. Baird, Subir Roychoudhury, William C. Pfefferle
-
Patent number: 8710106Abstract: A Sabatier process involving contacting carbon dioxide and hydrogen in a first reaction zone with a first catalyst bed at a temperature greater than a first designated temperature; feeding the effluent from the first reaction zone into a second reaction zone, and contacting the effluent with a second catalyst bed at a temperature equal to or less than a second designated temperature, so as to produce a product stream comprising water and methane. The first and second catalyst beds each individually comprise an ultra-short-channel-length metal substrate. An apparatus for controlling temperature in an exothermic reaction, such as the Sabatier reaction, is disclosed.Type: GrantFiled: June 22, 2011Date of Patent: April 29, 2014Assignee: Precision Combustion, Inc.Inventors: Christian Junaedi, Kyle Hawley, Subir Roychoudhury
-
Publication number: 20140044613Abstract: A novel catalytic reactor is provided for controlling the contact of a limiting reactant with a catalyst surface. A first flow vessel defines an interior surface and an exterior surface, and the interior surface has a catalyst deposited on at least a portion thereof. A second flow vessel is positioned within the first flow vessel and the second flow vessel defines a porous surface designed to deliver a fluid uniformly to at least a portion of the interior surface of the first flow vessel.Type: ApplicationFiled: October 22, 2013Publication date: February 13, 2014Applicant: PRECISION COMBUSTION, INC.Inventors: William C. Pfefferle, Shahrokh Etemad
-
Publication number: 20140017583Abstract: A process of reforming a liquid fuel comprising from greater than 50 ppmw sulfur to less than 400 ppmw sulfur, the process comprising contacting a liquid hydrocarbon fuel comprising one or more organosulfur compounds in a concentration from greater than 50 ppmw to less than 400 ppmw sulfur with an oxidant and steam or water, the contacting occurring in a catalyst bed comprising a reforming catalyst deposited on an ultra-short-channel-length metal substrate, such that the process is conducted at a peak catalyst temperature greater than 950° C. so as to produce a reformate mixture comprising hydrogen and carbon monoxide.Type: ApplicationFiled: March 31, 2012Publication date: January 16, 2014Applicant: Precision Combustion, Inc.Inventors: Subir Roychoudhury, Christian Junaedi, Dennis E. Walsh