Patents by Inventor Ines Gruetzmann

Ines Gruetzmann 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: 9051792
    Abstract: A method for conducting a wellbore operation includes disconnecting a radially projecting member from a first sub without uncoupling a second sub from the first sub. The method may include also coupling the first sub to the second sub with a connector that includes an electrical connection. An associated apparatus may include a sub having at least one conductor connected to a connector; and at least one radially projecting member removably coupled to the sub.
    Type: Grant
    Filed: July 20, 2011
    Date of Patent: June 9, 2015
    Assignee: Baker Hughes Incorporated
    Inventors: Wolfgang E. Herberg, Ines Gruetzmann
  • Patent number: 8826974
    Abstract: An additional string is run through an existing string using a running string. With the strings overlapping an upper inflatable secures them together leaving gaps. The upper inflatable creates an upper expanded zone where the swage assembly is then built. The swage assembly has a seal and upon pressure being applied between the upper inflatable and the seal the swage assembly releases the running string and is pushed to expand the additional string until tagging a cement shoe. The running string is rejoined to the swage assembly and after cementing a lower inflatable is deployed to make a bell and to set an external packer if used. If there is an external packer the shoe releases and on the way out of the hole the upper inflatable sets a seal in the lap.
    Type: Grant
    Filed: August 23, 2011
    Date of Patent: September 9, 2014
    Assignee: Baker Hughes Incorporated
    Inventors: Joerg Lehr, Anja Erdmann, Keven O'Connor, Ines Gruetzmann
  • Patent number: 8733456
    Abstract: A monobore wellbore apparatus and method of construction. The apparatus includes a series of overlapping expandable liner sections. The overlapping liner sections may be expanded and pressed to provide no gaps along the length of the liner system. The liner sections may include centralizers and/or circumferential seals that provide sealing functions and spaces between the overlapping liner sections. The liner sections may be lined with a suitable sealing material, including an epoxy or may be filled with cement or another desired materials.
    Type: Grant
    Filed: November 17, 2010
    Date of Patent: May 27, 2014
    Assignee: Baker Hughes Incorporated
    Inventors: Joerg Lehr, Ines Gruetzmann, Detlev Benedict, Wiebke Schoenebeck, Keven O'Connor, Matthias R. Moeller
  • Patent number: 8443903
    Abstract: The tubular string to be expanded is run in on a running string. The swage assembly has a seal from the running string to the existing tubular and the top of the tubular string to be expanded also has a similar seal against the exiting tubular. Annulus pressure around the running string drives the swage assembly to support the expanded tubular to the exiting tubular and to continue expansion to the end of the tubular. Cementing then takes place followed by reconfiguring the swage assembly to engage the liner hanger seal with the result being a monobore connection in a single trip including the cementing.
    Type: Grant
    Filed: October 8, 2010
    Date of Patent: May 21, 2013
    Assignee: Baker Hughes Incorporated
    Inventors: Keven O'Connor, Joerg Lehr, Mark K. Adam, Ines Gruetzmann
  • Publication number: 20130056228
    Abstract: The seal has a base ring that expands with the underlying supporting tubular. Extending from the base ring is a pleated structure with segments folded over each other so that the run in shape is small and up against the supporting tubular for run in. The pleated segments can have internal stiffeners that also add a bias radially outwardly when the structure is freed to move in that direction. A retaining band keeps the assembly retracted until tubular expansion defeats the band to allow the unitary structure to move out radially to the wellbore or surrounding tubular. The pleated portion unfolds and spans outwardly from the base ring to retain pressure differential in one direction while allowing fluid flow in the opposite direction. The assembly can be attached to a swage device so that pressure from above into the set seal can drive one or more swage members to expand a tubular.
    Type: Application
    Filed: September 7, 2011
    Publication date: March 7, 2013
    Applicant: BAKER HUGHES INCORPORATED
    Inventors: Ines Gruetzmann, Keven O'Connor, Joerg Lehr
  • Publication number: 20130048308
    Abstract: An additional string is run through an existing string using a running string. With the strings overlapping an upper inflatable secures them together leaving gaps. The upper inflatable creates an upper expanded zone where the swage assembly is then built. The swage assembly has a seal and upon pressure being applied between the upper inflatable and the seal the swage assembly releases the running string and is pushed to expand the additional string until tagging a cement shoe. The running string is rejoined to the swage assembly and after cementing a lower inflatable is deployed to make a bell and to set an external packer if used. If there is an external packer the shoe releases and on the way out of the hole the upper inflatable sets a seal in the lap.
    Type: Application
    Filed: August 23, 2011
    Publication date: February 28, 2013
    Applicant: BAKER HUGHES INCORPORATED
    Inventors: Joerg Lehr, Anja Erdmann, Keven O'Connor, Ines Gruetzmann
  • Publication number: 20120085549
    Abstract: The tubular string to be expanded is run in on a running string. The swage assembly has a seal from the running string to the existing tubular and the top of the tubular string to be expanded also has a similar seal against the exiting tubular. Annulus pressure around the running string drives the swage assembly to support the expanded tubular to the exiting tubular and to continue expansion to the end of the tubular. Cementing then takes place followed by reconfiguring the swage assembly to engage the liner hanger seal with the result being a monobore connection in a single trip including the cementing.
    Type: Application
    Filed: October 8, 2010
    Publication date: April 12, 2012
    Applicant: BAKER HUGHES INCORPORATED
    Inventors: Keven O'Connor, Joerg Lehr, Mark K. Adam, Ines Gruetzmann
  • Publication number: 20120018173
    Abstract: A method for conducting a wellbore operation includes disconnecting a radially projecting member from a first sub without uncoupling a second sub from the first sub. The method may include also coupling the first sub to the second sub with a connector that includes an electrical connection. An associated apparatus may include a sub having at least one conductor connected to a connector; and at least one radially projecting member removably coupled to the sub.
    Type: Application
    Filed: July 20, 2011
    Publication date: January 26, 2012
    Applicant: BAKER HUGHES INCORPORATED
    Inventors: Wolfgang E. Herberg, Ines Gruetzmann
  • Publication number: 20110114336
    Abstract: In aspects, the present disclosure provides a monobore wellbore construction apparatus and method, which in one embodiment may include a series of overlapping expandable liner sections. In one aspect, the overlapping liner sections may be expanded and pressed to provide no gaps along the length of the liner system. In another aspect, the liner sections may include centralizers and/or circumferential seals that provide sealing functions and spaces between the overlapping liner sections. The liner sections may be lined with a suitable sealing material, including an epoxy or may be filled with cement or another desired materials.
    Type: Application
    Filed: November 17, 2010
    Publication date: May 19, 2011
    Applicant: BAKER HUGHES INCORPORATED
    Inventors: Joerg Lehr, Ines Gruetzmann, Detlev Benedict, Wiebke Schoenebeck, Keven O'Connor, Matthias R. Moeller