Patents by Inventor David Altman

David Altman 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: 10436522
    Abstract: A heat exchanger includes a housing configured to contain a working fluid. The heat exchanger also includes a plurality of chambers disposed within the housing and arranged so as to be surrounded by the working fluid when the working fluid is within the housing, each chamber configured to contain a phase change material (PCM) that expands upon freezing. The walls of each chamber are formed of a high thermal conductivity material that allows transfer of thermal energy between the working fluid and the PCM in each chamber. The walls of each chamber include expandable bellows configured to deform to increase an internal volume of the chamber as the PCM expands upon freezing.
    Type: Grant
    Filed: August 1, 2016
    Date of Patent: October 8, 2019
    Assignee: Raytheon Company
    Inventors: David Altman, Nicholas Ian Maniscalco, Jonathan Balducci
  • Patent number: 10267569
    Abstract: A heat exchanger includes at least one conduit configured to carry a working fluid. The heat exchanger also includes a plurality of chambers in proximity to the at least one conduit, each chamber configured to contain a phase change material (PCM) that expands upon freezing. The at least one conduit and the plurality of chambers are thermally coupled for transfer of thermal energy between the working fluid and the PCM in each chamber. One wall of each chamber is formed of a compliant layer configured to deform to increase a volume of the chamber as the PCM expands upon freezing.
    Type: Grant
    Filed: August 1, 2016
    Date of Patent: April 23, 2019
    Assignee: Raytheon Company
    Inventors: David Altman, Nicholas Ian Maniscalco, Jonathan Balducci, Joshua D. Sole, John G. Bustamante, Christian O. Rodriguez
  • Publication number: 20180031332
    Abstract: A heat exchanger includes at least one conduit configured to carry a working fluid. The heat exchanger also includes a plurality of chambers in proximity to the at least one conduit, each chamber configured to contain a phase change material (PCM) that expands upon freezing. The at least one conduit and the plurality of chambers are thermally coupled for transfer of thermal energy between the working fluid and the PCM in each chamber. One wall of each chamber is formed of a compliant layer configured to deform to increase a volume of the chamber as the PCM expands upon freezing.
    Type: Application
    Filed: August 1, 2016
    Publication date: February 1, 2018
    Inventors: David Altman, Nicholas Ian Maniscalco, Jonathan Balducci, Joshua D. Sole, John G. Bustamante, Christian O. Rodriguez
  • Publication number: 20180031333
    Abstract: A heat exchanger includes a housing configured to contain a working fluid. The heat exchanger also includes a plurality of chambers disposed within the housing and arranged so as to be surrounded by the working fluid when the working fluid is within the housing, each chamber configured to contain a phase change material (PCM) that expands upon freezing. The walls of each chamber are formed of a high thermal conductivity material that allows transfer of thermal energy between the working fluid and the PCM in each chamber. The walls of each chamber include expandable bellows configured to deform to increase an internal volume of the chamber as the PCM expands upon freezing.
    Type: Application
    Filed: August 1, 2016
    Publication date: February 1, 2018
    Inventors: David Altman, Nicholas Ian Maniscalco, Jonathan Balducci
  • Patent number: 8044869
    Abstract: A system for mounting a wireless antenna and equipment to a stealth communication tower in coastal areas and inland waterways, camouflaged as a sailboat. The Cellboat is retrofitted to securely and discreetly store wireless transceiver equipment, and an antenna is attached at the top of the mast. Access doors are disposed in the side of the Cellboat to provide access to the equipment for maintenance purposes. The Cellboat is stored at drydock, allowing for access and protection from flooding of the equipment. Alternatively, when the Cellboat is deployed in the water, the access doors will be located on the top deck of the Cellboat.
    Type: Grant
    Filed: February 18, 2009
    Date of Patent: October 25, 2011
    Assignee: The Cellboat Company, LLC
    Inventors: Andrew Overton, Ryan Morgan, Keith P. Brown, David Altman
  • Publication number: 20100207828
    Abstract: A system for mounting a wireless antenna and equipment to a stealth communication tower in coastal areas and inland waterways, camouflaged as a sailboat. The Cellboat is retrofitted to securely and discreetly store wireless transceiver equipment, and an antenna is attached at the top of the mast. Access doors are disposed in the side of the Cellboat to provide access to the equipment for maintenance purposes. The Cellboat is stored at drydock, allowing for access and protection from flooding of the equipment. Alternatively, when the Cellboat is deployed in the water, the access doors will be located on the top deck of the Cellboat.
    Type: Application
    Filed: February 18, 2009
    Publication date: August 19, 2010
    Inventors: ANDREW OVERTON, Ryan Morgan, Keith P. Brown, David Altman
  • Publication number: 20100203521
    Abstract: The present invention is directed to a microfluidic device for lysis of cells, such as bacteria and microorganisms. In particular, the present invention relates to microfluidic devices and methods of manufacture of such microfluidic devices comprising a substrate with at least one channel packed with a polymer monolith embedded with carbon particles, for example carbon nanotubes. The microfluidic devices and methods of the present invention are useful for cell lysis of cells within a biological sample, such as a untreated biological sample comprising microorganisms, such as but not limited to gram positive and gram negative bacteria.
    Type: Application
    Filed: April 2, 2008
    Publication date: August 12, 2010
    Applicant: BOSTON MEDICAL CENTER CORPORATION
    Inventors: Catherine M. Klapperich, Jessica Dare Kaufman, Maria Dominika Kulinski, David Altman, Satish Singh
  • Publication number: 20060111767
    Abstract: Medical implant systems for a variety of medical uses including stimulating tissue, locating nerves during a medical procedure, measuring nerve activity, stimulating bone growth, assisting hearing, providing eyesight, delivering medicaments, and facilitating positioning and tracking of positions of medical implants.
    Type: Application
    Filed: December 21, 2005
    Publication date: May 25, 2006
    Inventors: Donald Olson, David Altman
  • Publication number: 20060008045
    Abstract: A reactor pressure vessel supports the flanges of a core barrel assembly and an upper support plate. These flanges have aligned holes for diverting inlet coolant water to the vessel head for cooling the head. The aligned holes have different cross-sectional areas for controlling unexpected backflow of coolant water from the vessel head around the periphery of the upper support plate.
    Type: Application
    Filed: November 5, 2004
    Publication date: January 12, 2006
    Inventors: David Forsyth, David Altman, Kevin Bethune, Michael Hankinson, Robert McFetridge
  • Patent number: 6880326
    Abstract: This invention comprises a new process for developing high regression rate propellants for application to hybrid rockets and solid fuel ramjets. The process involves the use of a criterion to identify propellants which form an unstable liquid layer on the melting surface of the propellant. Entrainment of droplets from the unstable liquid-gas interface can substantially increase propellant mass transfer leading to much higher surface regression rates over those that can be achieved with conventional hybrid propellants. The main reason is that entrainment is not limited by heat transfer to the propellant from the combustion zone. The process has been used to identify a new class of non-cryogenic hybrid fuels whose regression rate characteristics can be tailored for a given mission. The fuel can be used as the basis for a simpler hybrid rocket design with reduced cost, reduced complexity and increased performance.
    Type: Grant
    Filed: February 17, 2000
    Date of Patent: April 19, 2005
    Assignee: The Board of Trustees of the Leland Stanford Junior University
    Inventors: M. Arif Karabeyoglu, David Altman, Brian J. Cantwell
  • Patent number: 6684624
    Abstract: This invention comprises a new process for developing high regression rate propellants for application to hybrid rockets and solid fuel ramjets. The process involves the use of a criterion to identify propellants which form an unstable liquid layer on the melting surface of the propellant. Entrainment of droplets from the unstable liquid-gas interface can substantially increase propellant mass transfer leading to much higher surface regression rates over those that can be achieved with conventional hybrid propellants. The main reason is that entrainment is not limited by heat transfer to the propellant from the combustion zone. The process has been used to identify a new class of non-cryogenic hybrid fuels whose regression rate characteristics can be tailored for a given mission. The fuel can be used as the basis for a simpler hybrid rocket design with reduced cost, reduced complexity and increased performance.
    Type: Grant
    Filed: July 21, 1999
    Date of Patent: February 3, 2004
    Assignee: The Board of Trustees of the Leland Stanford Junior University
    Inventors: M. Arif Karabeyoglu, David Altman, Brian J. Cantwell
  • Publication number: 20030098107
    Abstract: This invention comprises a new process for developing high regression rate propellants for application to hybrid rockets and solid fuel ramjets. The process involves the use of a criterion to identify propellants which form an unstable liquid layer on the melting surface of the propellant. Entrainment of droplets from the unstable liquid-gas interface can substantially increase propellant mass transfer leading to much higher surface regression rates over those that can be achieved with conventional hybrid propellants. The main reason is that entrainment is not limited by heat transfer to the propellant from the combustion zone. The process has been used to identify a new class of non-cryogenic hybrid fuels whose regression rate characteristics can be tailored for a given mission. The fuel can be used as the basis for a simpler hybrid rocket design with reduced cost, reduced complexity and increased performance.
    Type: Application
    Filed: July 21, 1999
    Publication date: May 29, 2003
    Inventors: M. ARIF KARABEYOGLU, DAVID ALTMAN, BRIAN J. CANTWELL
  • Publication number: 20020036038
    Abstract: This invention comprises a new process for developing high regression rate propellants for application to hybrid rockets and solid fuel ramjets. The process involves the use of a criterion to identify propellants which form an unstable liquid layer on the melting surface of the propellant. Entrainment of droplets from the unstable liquid-gas interface can substantially increase propellant mass transfer leading to much higher surface regression rates over those that can be achieved with conventional hybrid propellants. The main reason is that entrainment is not limited by heat transfer to the propellant from the combustion zone. The process has been used to identify a new class of non-cryogenic hybrid fuels whose regression rate characteristics can be tailored for a given mission. The fuel can be used as the basis for a simpler hybrid rocket design with reduced cost, reduced complexity and increased performance.
    Type: Application
    Filed: February 17, 2000
    Publication date: March 28, 2002
    Inventors: M. Arif Karabeyoglu, David Altman, Brian J. Cantwell
  • Patent number: 5049380
    Abstract: The present invention describes a novel material which is extractable from plants of the order Malvales and which demonstrates anti-allergic activity.
    Type: Grant
    Filed: May 2, 1989
    Date of Patent: September 17, 1991
    Assignee: Bar-Ilan University
    Inventors: Shlomo Grossman, Rina Reznik, David Altman