Patents Assigned to OLYMPIC RESEARCH, INC.
  • Patent number: 9494011
    Abstract: A platform is formed in a well below a target plug zone by lowering a thermite reaction charge into the well and igniting it, whereby the products of the reaction are allowed to cool and expand to form a platform or support in the well. A main thermite reaction charge is placed above the platform and ignited to form a main sealing plug for the well. In some embodiments an upper plug is formed by igniting an upper thermite reaction charge above the main thermite reaction charge. The upper plug confines the products of ignition of the main thermite reaction charge.
    Type: Grant
    Filed: July 8, 2016
    Date of Patent: November 15, 2016
    Assignee: Olympic Research, Inc.
    Inventors: William Edward Lowry, Sandra Dalvit Dunn
  • Patent number: 9394757
    Abstract: Wells are sealed by means of thermite reaction charges inserted into the wells. The reaction charge can be diluted by addition of metal oxides, silica, or the like control reaction pressure, peak temperature, reaction rate, and expansion characteristics of the resulting thermite plug. The use of dilution of the thermite reactants can take the form of a thermite charge with specific layers, including relatively high and low reaction temperature layers. The ignition source can be oriented to achieve directional control on the product expansion including radial or axial expansion. The charge can be loaded with a large mass to compress the resulting thermite plug into the borehole wall and reduce its porosity during the reaction process. A further variation involves continuous feed of the thermite reactants to the reaction zone. Various combinations and permutations of the above inventive concepts are described.
    Type: Grant
    Filed: January 30, 2014
    Date of Patent: July 19, 2016
    Assignee: Olympic Research, Inc.
    Inventors: William Edward Lowry, Sandra Dalvit Dunn
  • Patent number: 9228412
    Abstract: Wells are sealed by means of thermite reaction charges inserted into the wells. The reaction charge can be diluted by addition of metal oxides, silica, or the like control reaction pressure, peak temperature, reaction rate, and expansion characteristics of the resulting thermite plug. The use of dilution of the thermite reactants can take the form of a thermite charge with specific layers, including relatively high and low reaction temperature layers. The ignition source can be oriented to achieve directional control on the product expansion including radial or axial expansion. The charge can be loaded with a large mass to compress the resulting thermite plug into the borehole wall and reduce its porosity during the reaction process. A further variation involves continuous feed of the thermite reactants to the reaction zone. Various combinations and permutations of the above inventive concepts are described.
    Type: Grant
    Filed: January 30, 2014
    Date of Patent: January 5, 2016
    Assignee: OLYMPIC RESEARCH, INC.
    Inventors: William Edward Lowry, Sandra Dalvit Dunn
  • Publication number: 20150211327
    Abstract: Wells are sealed by means of thermite reaction charges inserted into the wells. The reaction charge can be diluted by addition of metal oxides, silica, or the like control reaction pressure, peak temperature, reaction rate, and expansion characteristics of the resulting thermite plug. The use of dilution of the thermite reactants can take the form of a thermite charge with specific layers, including relatively high and low reaction temperature layers. The ignition source can be oriented to achieve directional control on the product expansion including radial or axial expansion. The charge can be loaded with a large mass to compress the resulting thermite plug into the borehole wall and reduce its porosity during the reaction process. A further variation involves continuous feed of the thermite reactants to the reaction zone. Various combinations and permutations of the above inventive concepts are described.
    Type: Application
    Filed: January 30, 2014
    Publication date: July 30, 2015
    Applicant: OLYMPIC RESEARCH, INC.
    Inventors: William Edward Lowry, Sandra Dalvit Dunn
  • Publication number: 20150211322
    Abstract: Wells are sealed by means of thermite reaction charges inserted into the wells. The reaction charge can be diluted by addition of metal oxides, silica, or the like control reaction pressure, peak temperature, reaction rate, and expansion characteristics of the resulting thermite plug. The use of dilution of the thermite reactants can take the form of a thermite charge with specific layers, including relatively high and low reaction temperature layers. The ignition source can be oriented to achieve directional control on the product expansion including radial or axial expansion. The charge can be loaded with a large mass to compress the resulting thermite plug into the borehole wall and reduce its porosity during the reaction process. A further variation involves continuous feed of the thermite reactants to the reaction zone. Various combinations and permutations of the above inventive concepts are described.
    Type: Application
    Filed: January 30, 2014
    Publication date: July 30, 2015
    Applicant: OLYMPIC RESEARCH, INC.
    Inventors: William Edward Lowry, Sandra Dalvit Dunn
  • Publication number: 20150211328
    Abstract: Wells are sealed by means of thermite reaction charges inserted into the wells. The reaction charge can be diluted by addition of metal oxides, silica, or the like control reaction pressure, peak temperature, reaction rate, and expansion characteristics of the resulting thermite plug. The use of dilution of the thermite reactants can take the form of a thermite charge with specific layers, including relatively high and low reaction temperature layers. The ignition source can be oriented to achieve directional control on the product expansion including radial or axial expansion. The charge can be loaded with a large mass to compress the resulting thermite plug into the borehole wall and reduce its porosity during the reaction process. A further variation involves continuous feed of the thermite reactants to the reaction zone. Various combinations and permutations of the above inventive concepts are described.
    Type: Application
    Filed: January 30, 2014
    Publication date: July 30, 2015
    Applicant: OLYMPIC RESEARCH, INC.
    Inventors: William Edward Lowry, Sandra Dalvit Dunn
  • Publication number: 20150211326
    Abstract: Wells are sealed by means of thermite reaction charges inserted into the wells. The reaction charge can be diluted by addition of metal oxides, silica, or the like control reaction pressure, peak temperature, reaction rate, and expansion characteristics of the resulting thermite plug. The use of dilution of the thermite reactants can take the form of a thermite charge with specific layers, including relatively high and low reaction temperature layers. The ignition source can be oriented to achieve directional control on the product expansion including radial or axial expansion. The charge can be loaded with a large mass to compress the resulting thermite plug into the borehole wall and reduce its porosity during the reaction process. A further variation involves continuous feed of the thermite reactants to the reaction zone. Various combinations and permutations of the above inventive concepts are described.
    Type: Application
    Filed: January 30, 2014
    Publication date: July 30, 2015
    Applicant: OLYMPIC RESEARCH, INC.
    Inventors: William Edward Lowry, Sandra Dalvit Dunn