Trent J.
Trent J. Fleece, Houston, TX US
Patent application number | Description | Published |
---|---|---|
20120125623 | COLLECTOR FOR CAPTURING FLOW DISCHARGED FROM A SUBSEA BLOWOUT - A collector for capturing flow discharged from a subsea blowout includes a tubular housing having a containment chamber; a seal connected to the housing; a tubular chimney connected to the housing, having a portion of a subsea connector, and having a diameter less than a diameter of the containment chamber; and a head connected to the housing and the chimney. | 05-24-2012 |
20150159456 | COLLECTOR FOR CAPTURING FLOW DISCHARGED FROM A SUBSEA BLOWOUT - A collector for capturing flow discharged from a subsea blowout includes a tubular housing having a containment chamber; a seal connected to the housing; a tubular chimney connected to the housing, having a portion of a subsea connector, and having a diameter less than a diameter of the containment chamber; and a head connected to the housing and the chimney. | 06-11-2015 |
Trent J. Kahute, Atlanta, GA US
Patent application number | Description | Published |
---|---|---|
20150293067 | BEVERAGE DIAGNOSTIC AND PRESERVATION DEVICES AND METHODS - An apparatus for determining freshness of wine stored in a container includes a housing, a gas sensor, an optical sensor pair, and electrical circuitry. The gas sensor is affixed to the housing such that it extends into a headspace of the container above the wine. The optical sensor pair is positioned such that the optical sensor pair extends into the headspace above the wine. The electrical circuitry is contained in the housing and is electrically interfaced to the gas sensor and to the optical sensor pair. The electrical circuitry operates the gas sensor to generate a series of gas level measurements and operates the optical sensor pair to generate a series of optical transmission measurements. A quality parameter corresponding to the freshness of the wine is determined based on both the series of gas level measurements and the series of optical transmission measurements. | 10-15-2015 |
Trent J. Perry, Kaysfille, UT US
Patent application number | Description | Published |
---|---|---|
20150306300 | METHODS FOR IMPLANTING SUBCUTANEOUS VASCULAR ACCESS PORTS - A method of securing an access port to a vessel can include positioning an access port adjacent to a wall of the vessel. The access port can include an implantation passageway and a guidance passageway that is connected to the implantation passageway. The implantation passageway can be open, during the positioning of the access port, at a position proximal to a location at which the implantation passageway and the guidance passageway are connected. The method can further include forming an opening in the wall of the vessel via instruments that extend through the implantation passageway. The method can include securing the access port to the vessel such that the implantation passageway is in fluid communication with an interior of the vessel via the opening in the wall of the vessel. The method can also include sealing the implantation passageway at the position proximal to the guidance passageway. | 10-29-2015 |