Patents by Inventor Alan J. Cisar
Alan J. Cisar 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: 7859653Abstract: A method, computer program product and system for analyzing multispectral images from a plurality of regions of birefringent material, such as a polymer film, using polarized light and a corresponding polar analyzer to identify differential strain in the birefringent material. For example, the birefringement material may be low-density polyethylene (LDPE), high-density polyethylene (HDPE), polypropylene, polyethylene terephthalate (PET), polyvinyl chloride (PVC), polyvinylidene chloride, polyester, nylon, or cellophane film. Optionally, the method includes generating a real-time quantitative strain map.Type: GrantFiled: August 31, 2007Date of Patent: December 28, 2010Assignee: Lynntech, Inc.Inventors: Anthony J. Ragucci, Alan J. Cisar, Michael L. Huebschman, Harold R. Garner
-
Patent number: 7125625Abstract: A bipolar assembly for use in electrochemical cell stacks, especially stacks operated at low pressure. The bipolar assembly is lightweight and provides a “post-type” flow field that operates with a low pressure drop. The bipolar assembly comprises a gas barrier having an array of electronically conducting posts disposed approximately perpendicular to the gas barrier. Each end of the posts is in electrical communication with the surface of an electrode. Because the bipolar assembly separates a cathode from an anode, the posts contact an anode electrode on one end and a cathode electrode on the other end. The posts provide current conduction through the stack as well as provide the flow fields for the electrochemical reactants. Optionally, the bipolar assembly may contain cooling fluid channels formed by adding additional gas barriers to the bipolar assembly. The space between the gas barriers form a channel through which cooling fluids may be circulated.Type: GrantFiled: May 30, 2003Date of Patent: October 24, 2006Assignee: Lynnetech, Inc.Inventors: Alan J. Cisar, Craig C. Andrews, Charles J. Greenwald, Oliver J. Murphy, Chris Boyer, Rattaya Chow Yalamanchili, Carlos E. Salinas
-
Patent number: 6991869Abstract: A subassembly for a stack of electrochemical cells that includes a porous metal sheet having a first face and a second face with a hydrophobic, carbonaceous gas diffusion layer disposed within the pores along the first face of the porous metal sheet. The second face of the porous metal sheet defines a flow field while that portion of the porous metal sheet filled with the gas diffusion layer forms a current collector. The subassembly may further include a metal gas barrier metallurgically bonded to the second face of the porous metal sheet to act as a gas barrier between the porous metal sheet and a second porous metal sheet having a second gas diffusion layer disposed within the pores along a face of the second porous metal sheet. Preferably, the gas diffusion layers are applied as a paste to the porous metal sheet and then dried.Type: GrantFiled: October 17, 2002Date of Patent: January 31, 2006Assignee: Lynntech Power Systems, Ltd.Inventors: Alan J. Cisar, Oliver J. Murphy, King-Tsai Jeng, Carlos Salinas, Stan Simpson, Dacong Weng, Homayoun Moaddel
-
Patent number: 6881308Abstract: A method for electrochemical synthesis of ammonia gas comprising providing an electrolyte between an anode and a cathode, providing hydrogen gas to the anode, oxidizing negatively charged nitrogen-containing species present in the electrolyte at the anode to form an adsorbed nitrogen species, and reacting the hydrogen with the adsorbed nitrogen species to form ammonia. Preferably, the hydrogen gas is provided to the anode by passing the hydrogen gas through a porous anode substrate. It is also preferred to produce the negatively charged nitrogen-containing species in the electrolyte by reducing nitrogen gas at the cathode. However, the negatively charged nitrogen-containing species may also be provided by supplying a nitrogen-containing salt, such as lithium nitride, into the molten salt electrolyte mixture in a sufficient amount to provide some or all of the nitrogen consumed in the production of ammonia.Type: GrantFiled: March 4, 2002Date of Patent: April 19, 2005Assignee: Lynntech, Inc.Inventors: Adrian J. Denvir, Oliver J. Murphy, Alan J. Cisar, Priscilla Robertson, Kyle Uselton
-
Patent number: 6804949Abstract: The present invention provides a self-replenishing liquid water source onboard an automobile for supplying liquid water to an electrolyzer, such as an on-board hydrogen generator useful for the suppression of unwanted emissions. While automobiles typically have water reservoirs resupplied by a person, the invention provides a passive means of water collection for reliable replenishment due to operations of the automobile itself. The invention provides condensate from the engine exhaust gas by cooling a region of the exhaust system using cooling fluid from the engine coolant system. The cooling fluid is circulated during a period following the engine cold start event when the heat load on the engine coolant system is low.Type: GrantFiled: August 22, 2002Date of Patent: October 19, 2004Assignees: Lynntech, Inc., The Texas A&M University SystemInventors: Craig C. Andrews, Alan J. Cisar, Carlos Salinas, Oliver J. Murphy, A. John Appleby
-
Patent number: 6733913Abstract: This invention is an improved fuel cell design for use at low pressure. The invention has a reduced number of component parts to reduce fabrication costs, as well as a simpler design that permits the size of the system to be reduced at the same time as performance is being improved. In the present design, an adjacent anode and cathode pair are fabricated using a common conductive element, with that conductive element serving to conduct the current from one cell to the adjacent one. This produces a small and simple system suitable for operating with gas fuels or alternatively directly with liquid fuels, such as methanol, dimethoxymethane, or trimethoxymethane. The use of these liquid fuels permits the storage of more energy in less volume while at the same time eliminating the need for handling compressed gases which further simplifies the fuel cell system.Type: GrantFiled: April 9, 2002Date of Patent: May 11, 2004Assignee: Lynntech, Inc.Inventors: Alan J. Cisar, Dacong Weng, Oliver J. Murphy
-
Publication number: 20040009095Abstract: The present invention provides a universal decontamination formulation and method for detoxifying chemical warfare agents (CWA's) and biological warfare agents (BWA's) without producing any toxic by-products, as well as, decontaminating surfaces that have come into contact with these agents. The formulation includes a sorbent material or gel, a peroxide source, a peroxide activator, and a compound containing a mixture of KHSO5, KHSO4 and K2SO4. The formulation is self-decontaminating and once dried can easily be wiped from the surface being decontaminated. A method for decontaminating a surface exposed to chemical or biological agents is also disclosed.Type: ApplicationFiled: May 23, 2003Publication date: January 15, 2004Inventors: Anthony Giletto, William White, Alan J. Cisar, G. Duncan Hitchens, James Fyffe
-
Publication number: 20040005272Abstract: Inorganic ion exchange materials for the separation of 90Y from 90Sr include chabazite, clinoptilolite, potassium pharmacosiderite, sodium titanosilicate and sodium nonatitanate. These materials are suitable for making a 90Y generator that contains 90Sr immobilized on an ion exchange column of the materials. The materials have a very high selectivity for 90Sr, a very low selectivity for 90Y, good radiation and thermal stability, low toxicity, fast reaction kinetics, and can be readily and reproducibly synthesized. A method is thus provided for eluting 90Y from the ion exchange material with an eluant solution. The eluant solution is preferably aqueous, preferably has a pH greater than about 5, and preferably includes a chelating agent. Preferred chelating agents include gluconic acid, oxalic acid, iminodiacetic acid, nitrilotriacetic acid, citric acid, and combinations thereof.Type: ApplicationFiled: March 3, 2003Publication date: January 8, 2004Inventors: Paul Sylvester, Todd Adams, Alan J. Cisar
-
Publication number: 20030232234Abstract: A bipolar assembly for use in electrochemical cell stacks, especially stacks operated at low pressure. The bipolar assembly is lightweight and provides a “post-type” flow field that operates with a low pressure drop. The bipolar assembly comprises a gas barrier having an array of electronically conducting posts disposed approximately perpendicular to the gas barrier. Each end of the posts is in electrical communication with the surface of an electrode. Because the bipolar assembly separates a cathode from an anode, the posts contact an anode electrode on one end and a cathode electrode on the other end. The posts provide current conduction through the stack as well as provide the flow fields for the electrochemical reactants. Optionally, the bipolar assembly may contain cooling fluid channels formed by adding additional gas barriers to the bipolar assembly. The space between the gas barriers form a channel through which cooling fluids may be circulated.Type: ApplicationFiled: May 30, 2003Publication date: December 18, 2003Inventors: Alan J. Cisar, Craig C. Andrews, Charles J. Greenwald, Oliver J. Murphy, Chris Boyer, Rattaya Yalamanchili, Carlos E. Salinas
-
Publication number: 20030175431Abstract: The present invention relates to methods of fabricating composite membranes wherein at least one of the components is initially provided in the form of a precursor. The composite material comprising the precursor is processed to transform the precursor and obtain a membrane having a desired property. Including a thermoplastic precursor to a desired component, which itself is less thermoplastic, permits separate pieces of the membrane to be joined by welding or other thermal processes relying on the meltability of the components to achieve a bond. The invention also encompasses fabricating a reinforced ion conducting membrane by melting and mixing a non ion-conducting precursor to an ion-conducting polymer with an essentially inert polymer. The composite material is then processed to transform the non ion-conducting polymer into the ion-conducting form.Type: ApplicationFiled: December 17, 2002Publication date: September 18, 2003Applicant: Lynntech, Inc.Inventor: Alan J. Cisar
-
Publication number: 20030164292Abstract: A method for electrochemical synthesis of ammonia gas comprising providing an electrolyte between an anode and a cathode, providing hydrogen gas to the anode, oxidizing negatively charged nitrogen-containing species present in the electrolyte at the anode to form an adsorbed nitrogen species, and reacting the hydrogen with the adsorbed nitrogen species to form ammonia. Preferably, the hydrogen gas is provided to the anode by passing the hydrogen gas through a porous anode substrate. It is also preferred to produce the negatively charged nitrogen-containing species in the electrolyte by reducing nitrogen gas at the cathode. However, the negatively charged nitrogen-containing species may also be provided by supplying a nitrogen-containing salt, such as lithium nitride, into the molten salt electrolyte mixture in a sufficient amount to provide some or all of the nitrogen consumed in the production of ammonia.Type: ApplicationFiled: March 4, 2002Publication date: September 4, 2003Inventors: Andrian J. Denvir, Oliver J. Murphy, Alan J. Cisar, Priscilla Robertson, Kyle Uselton
-
Patent number: 6602631Abstract: The invention provides a method for preparing subassemblies for an electrochemical cell or a stack of electrochemical cells, particularly a stack of fuel cells for the direct generation of electricity. The method includes bonding together two or more electrochemical cell components, such as plates, frames, flow fields, shims, gaskets, membranes and the like, to form subassemblies used to make an electrochemical cell stack. The bonding can be accomplished using either polymeric bonds (i.e., adhesives) where polymer and/or metal components are involved or metallurgical bonds (i.e., solder) where metal components are involved. The bonding provides tightly sealed cells and lower electronic contact resistances between components.Type: GrantFiled: January 26, 1999Date of Patent: August 5, 2003Assignee: Lynntech Power Systems, Ltd.Inventors: Alan J. Cisar, Oliver J. Murphy, Eric T. Clarke
-
Publication number: 20030124411Abstract: The invention provides for reducing the number of parts and the number of interfaces found in certain types of chemical reactors, particularly in electrochemical reactors, and especially in the type or reactor known as a fuel cell or fuel cell stack. This reduction comes from the use of a unified structure that combines the functions normally carried out by several components in the unit, particularly by combining the functions of the gas distribution structure and the gas diffusion structure, the gas distribution structure and the gas barrier structure, or all three structures into a single, unitary, metallic part. This offers the advantages of simplified design, better performance, and lighter weight.Type: ApplicationFiled: October 17, 2002Publication date: July 3, 2003Applicant: Lynntech, Inc.Inventors: Alan J. Cisar, Oliver J. Murphy, King-Tsai Jeng, Carlos Salinas, Stan Simpson, Dacong Weng, Homayoun Moaddel
-
Patent number: 6569353Abstract: The present invention provides a universal decontamination formulation and method for detoxifying chemical warfare agents (CWA's) and biological warfare agents (BWA's) without producing any toxic by-products, as well as, decontaminating surfaces that have come into contact with these agents. The formulation includes a sorbent material or gel, a peroxide source, a peroxide activator, and a compound containing a mixture of KHSO5, KHSO4 and K2SO4. The formulation is self-decontaminating and once dried can easily be wiped from the surface being decontaminated. A method for decontaminating a surface exposed to chemical or biological agents is also disclosed.Type: GrantFiled: June 11, 1998Date of Patent: May 27, 2003Assignee: Lynntech, Inc.Inventors: Anthony Giletto, William White, Alan J. Cisar, G. Duncan Hitchens, James Fyffe
-
Patent number: 6562507Abstract: The invention provides for reducing the number of parts and the number of interfaces found in certain types of chemical reactors, particularly in electrochemical reactors, and especially in the type or reactor known as a fuel cell or fuel cell stack This reduction comes from the use of a unified structure that combines the functions normally carried out by several components in the unit, particularly by combining the functions of the gas distribution structure and the gas diffusion structure, the gas distribution structure and the gas barrier structure, or all three structures into a single, unitary, metallic part. This offers the advantages of simplified design, better performance, and lighter weight.Type: GrantFiled: October 5, 2000Date of Patent: May 13, 2003Assignee: Lynntech Power Systems, Ltd.Inventors: Alan J. Cisar, Oliver J. Murphy, King-Tsai Jeng, Carlos Salinas, Stan Simpson
-
Publication number: 20030085135Abstract: The present invention provides a self-replenishing liquid water source onboard an automobile for supplying liquid water to an electrolyzer, such as an on-board hydrogen generator useful for the suppression of unwanted emissions. While automobiles typically have water reservoirs resupplied by a person, the invention provides a passive means of water collection for reliable replenishment due to operations of the automobile itself. The invention provides condensate from the engine exhaust gas by cooling a region of the exhaust system using cooling fluid from the engine coolant system. The cooling fluid is circulated during a period following the engine cold start event when the heat load on the engine coolant system is low.Type: ApplicationFiled: August 22, 2002Publication date: May 8, 2003Applicant: Lynntech, Inc.Inventors: Craig C. Andrews, Alan J. Cisar, Carlos Salinas, Oliver J. Murphy, A. John Appleby
-
Patent number: 6555055Abstract: A system having a fluid source and a pasteurizer coupled with a disinfectant unit in flow communication with the fluid source for use in disinfecting dental or other water lines. The combination of pasteurizer and disinfectant unit is adapted to receive water from the fluid source. A fluid delivery unit is provided in flow communication with the pasteurizer and disinfectant unit combination. The disinfectant unit has a means for supplying hydrogen and oxygen and a means for generating hydrogen peroxide in flow communication with the means for supplying hydrogen and oxygen.Type: GrantFiled: July 30, 1999Date of Patent: April 29, 2003Assignee: Lynntech, Inc.Inventors: Alan J. Cisar, Adrain Denvir, G. Duncan Hitchens, Thomas D. Rogers
-
Patent number: 6533827Abstract: The invention provides a method for preparing subassemblies for an electrochemical cell or a stack of electrochemical cells, particularly a stack of fuel cells for the direct generation of electricity. The method includes bonding together two or more electrochemical cell components, such as plates, frames, flow fields, shims, gaskets, membranes and the like, to form subassemblies used to make an electrochemical cell stack. The bonding can be accomplished using either polymeric bonds (i.e., adhesives) where polymer and/or metal components are involved or metallurgical bonds (i.e., solder) where metal components are involved. The bonding provides tightly sealed cells and lower electronic contact resistances between components.Type: GrantFiled: October 25, 2000Date of Patent: March 18, 2003Assignee: Lynntech Power Systems, Ltd.Inventors: Alan J. Cisar, Eric T. Clarke
-
Publication number: 20030003343Abstract: The invention provides a method for preparing subassemblies for an electrochemical cell or a stack of electrochemical cells, particularly a stack of fuel cells for the direct generation of electricity. The method includes bonding together two or more electrochemical cell components, such as plates, frames, flow fields, shims, gaskets, membranes and the like, to form subassemblies used to make an electrochemical cell stack. The bonding can be accomplished using either polymeric bonds (i.e., adhesives) where polymer and/or metal components are involved or metallurgical bonds (i.e., solder) where metal components are involved. The bonding provides tightly sealed cells and lower electronic contact resistances between components.Type: ApplicationFiled: May 18, 2002Publication date: January 2, 2003Applicant: Lynntech, Inc.Inventors: Alan J. Cisar, Oliver J. Murphy, Eric T. Clarke
-
Publication number: 20020195335Abstract: This invention is an improved fuel cell design for use at low pressure. The invention has a reduced number of component parts to reduce fabrication costs, as well as a simpler design that permits the size of the system to be reduced at the same time as performance is being improved.Type: ApplicationFiled: April 9, 2002Publication date: December 26, 2002Inventors: Alan J. Cisar, Dacong Weng, Oliver J. Murphy