Patents by Inventor Christian A. Cermelli
Christian A. Cermelli 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).
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Patent number: 10858075Abstract: A floating connector of an offshore energy device and a method for connecting the floating connector is provided. The floating connector includes a buoy having a tube, a bay, a joint box, and at least one cable for connecting to the offshore energy device. The buoy provides buoyancy to the floating connector and includes the tube and bay. The bay houses the joint box, which electrically couples the at least one cable to each other and to a switchgear of the offshore energy device.Type: GrantFiled: September 12, 2019Date of Patent: December 8, 2020Assignee: PRINCIPLE POWER, INC.Inventors: Christian Cermelli, Tiago Duarte, Cyril Godreau
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Publication number: 20200001946Abstract: A floating connector of an offshore energy device and a method for connecting the floating connector is provided. The floating connector includes a buoy having a tube, a bay, a joint box, and at least one cable for connecting to the offshore energy device. The buoy provides buoyancy to the floating connector and includes the tube and bay. The bay houses the joint box, which electrically couples the at least one cable to each other and to a switchgear of the offshore energy device.Type: ApplicationFiled: September 12, 2019Publication date: January 2, 2020Applicant: PRINCIPLE POWER, INC.Inventors: Christian Cermelli, Tiago Duarte, Cyril Godreau
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Patent number: 10421524Abstract: A floating connector of an offshore energy device and a method for connecting the floating connector is provided. The floating connector includes a buoy having a long spar like floater, where the buoy provides buoyancy to the floating connector. The floating connector further includes at least two cables for connecting to the offshore energy device. The floating connector also includes a joint box for coupling to the offshore energy device and for providing an electrical connection of the at least two cables to a switchgear of the offshore energy device. When the joint box is coupled to the offshore energy device, an electrical circuit with the at least two cables is completed through the offshore energy device via the switchgear.Type: GrantFiled: October 27, 2015Date of Patent: September 24, 2019Assignee: PRINCIPLE POWER, INC.Inventors: Christian Cermelli, Tiago Duarte, Cyril Godreau
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Patent number: 10267293Abstract: A method for controlling an inclination of a floating wind turbine platform Position data associated with an orientation of the floating wind turbine is received. A heel angle in reference to the floating wind turbine platform is determined based on the position data. A first signal for adjusting at least one of a blade pitch of a set of turbine blades and a torque of a generator is sent based on the determined heel angle. A second signal for distributing ballast among at least three stabilizing columns is also sent. The second signal for distributing the ballast is based on the determined heel angle and the first signal. The first and second signals may be adjusted to account for startup and shutdown procedures and for future changes to wind speed and velocity.Type: GrantFiled: December 28, 2017Date of Patent: April 23, 2019Assignee: PRINCIPLE POWER, INC.Inventors: Antoine Peiffer, Christian Cermelli, Dominique Roddier
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Patent number: 10174744Abstract: A structure of a floating, semi-submersible wind turbine platform is provided. The floating wind turbine platform includes three elongate stabilizing columns, each having a top end, a keel end, and an outer shell containing an inner shaft. Each stabilizing column further includes a water entrapment plate. The floating wind turbine platform also includes three truss members, each truss member including two chord members and two diagonal members. The truss members connect the stabilizing columns to form a triangular cross-section. An elongate wind turbine tower is disposed over the top end of one of the three stabilizing columns.Type: GrantFiled: October 31, 2017Date of Patent: January 8, 2019Assignee: PRINCIPLE POWER, INC.Inventors: Alexia Aubault, Christian Cermelli, Dominique Roddier, Bing Bin Yu, Sriram Narayanan, Alireza Lahijanian
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Publication number: 20180119672Abstract: A method for controlling an inclination of a floating wind turbine platform comprising a generator, a set of turbine blades connected to a shaft inside a turbine nacelle, the turbine nacelle being mounted onto a tower, and at least three stabilizing columns is presented. Each of the at least three stabilizing columns have an internal volume for containing ballast. Position data associated with an orientation of the floating wind turbine is received. A heel angle in reference to the floating wind turbine platform is determined based on the position data. A first signal for adjusting at least one of a blade pitch of the set of turbine blades, and a torque of the generator is sent based on the determined heel angle. A second signal for distributing the ballast among the at least three stabilizing columns is also sent. The second signal for distributing the ballast is based on the determined heel angle and the first signal.Type: ApplicationFiled: December 28, 2017Publication date: May 3, 2018Applicant: PRINCIPLE POWER, INC.Inventors: Antoine Peiffer, Christian Cermelli, Dominique Roddier
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Publication number: 20180051677Abstract: A structure of a floating, semi-submersible wind turbine platform is provided. The floating wind turbine platform includes three elongate stabilizing columns, each having a top end, a keel end, and an outer shell containing an inner shaft. Each stabilizing column further includes a water entrapment plate at its keel cantilevered in a plane perpendicular to a longitudinal axis of the stabilizing column. The floating wind turbine platform also includes three truss members, each truss member including two horizontal main tubular members and two diagonal tubular members. The truss members connect the stabilizing columns to form a triangular cross-section. An elongate wind turbine tower is disposed over the top end of one of the three stabilizing columns such that the longitudinal axis of the tower is substantially parallel to the longitudinal axis of the stabilizing column.Type: ApplicationFiled: October 31, 2017Publication date: February 22, 2018Applicant: PRINCIPLE POWER, INC.Inventors: Alexia Aubault, Christian Cermelli, Dominique Roddier, Bing Bin Yu, Sriram Narayanan, Alireza Lahijanian
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Patent number: 9879654Abstract: A method for controlling an inclination of a floating wind turbine platform comprising a generator, a set of turbine blades connected to a shaft inside a turbine nacelle, the turbine nacelle being mounted onto a tower, and at least three stabilizing columns is presented. Each of the at least three stabilizing columns have an internal volume for containing ballast. Position data associated with an orientation of the floating wind turbine is received. A heel angle in reference to the floating wind turbine platform is determined based on the position data. A first signal for adjusting at least one of a blade pitch of the set of turbine blades, and a torque of the generator is sent based on the determined heel angle. A second signal for distributing the ballast among the at least three stabilizing columns is also sent. The second signal for distributing the ballast is based on the determined heel angle and the first signal.Type: GrantFiled: May 20, 2014Date of Patent: January 30, 2018Assignee: PRINCIPLE POWER, INC.Inventors: Antoine Peiffer, Christian Cermelli, Dominique Roddier
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Patent number: 9810204Abstract: A structure of a floating, semi-submersible wind turbine platform is provided. The floating wind turbine platform includes three elongate stabilizing columns, each having a top end, a keel end, and an outer shell containing an inner shaft. Each stabilizing column further includes a water entrapment plate at its keel cantilevered in a plane perpendicular to a longitudinal axis of the stabilizing column. The floating wind turbine platform also includes three truss members, each truss member including two horizontal main tubular members and two diagonal tubular members. The truss members connect the stabilizing columns to form a triangular cross-section. An elongate wind turbine tower is disposed over the top end of one of the three stabilizing columns such that the longitudinal axis of the tower is substantially parallel to the longitudinal axis of the stabilizing column.Type: GrantFiled: June 17, 2016Date of Patent: November 7, 2017Assignee: Principle Power, Inc.Inventors: Alexia Aubault, Christian Cermelli, Dominique Roddier, Bing Bin Yu, Sriram Narayanan, Alireza Lahijanian
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Patent number: 9446822Abstract: A floating wind turbine platform includes at least three stabilizing columns, where each stabilizing column has an internal volume for containing ballast. The floating wind turbine platform also includes a tower having mounted in vertical alignment over one of the columns, a turbine rotor coupled to an electrical generator mounted proximate to the upper end of the tower, main beams interconnected to the stabilizing columns, and water-entrapment plates attached to the lower ends of the stabilizing columns. The floating wind turbine platform further includes a ballast control system including an alignment sensor configured to detect a rotation of the tower, and a controller coupled to the alignment sensor for directing a transfer of the ballast from an internal volume of one column to another column upon the alignment sensor detecting rotation of the tower to adjust a vertical alignment of the tower.Type: GrantFiled: August 31, 2015Date of Patent: September 20, 2016Assignee: Principle Power, Inc.Inventors: Dominique Roddier, Christian Cermelli
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Publication number: 20160114863Abstract: A floating connector of an offshore energy device and a method for connecting the floating connector is provided. The floating connector includes a buoy having a long spar like floater, where the buoy provides buoyancy to the floating connector. The floating connector further includes at least two cables for connecting to the offshore energy device. The floating connector also includes a joint box for coupling to the offshore energy device and for providing an electrical connection of the at least two cables to a switchgear of the offshore energy device. When the joint box is coupled to the offshore energy device, an electrical circuit with the at least two cables is completed through the offshore energy device via the switchgear.Type: ApplicationFiled: October 27, 2015Publication date: April 28, 2016Applicant: PRINCIPLE POWER, INC.Inventors: Christian Cermelli, Tiago Duarte, Cyril Godreau
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Publication number: 20150367918Abstract: A floating wind turbine platform includes at least three stabilizing columns, where each stabilizing column has an internal volume for containing ballast. The floating wind turbine platform also includes a tower having mounted in vertical alignment over one of the columns, a turbine rotor coupled to an electrical generator mounted proximate to the upper end of the tower, main beams interconnected to the stabilizing columns, and water-entrapment plates attached to the lower ends of the stabilizing columns. The floating wind turbine platform further includes a ballast control system including an alignment sensor configured to detect a rotation of the tower, and a controller coupled to the alignment sensor for directing a transfer of the ballast from an internal volume of one column to another column upon the alignment sensor detecting rotation of the tower to adjust a vertical alignment of the tower.Type: ApplicationFiled: August 31, 2015Publication date: December 24, 2015Inventors: Dominique Roddier, Christian Cermelli
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Patent number: 9139266Abstract: A floating wind turbine platform includes stabilizing columns, a tower, water-entrapment plates connected to the stabilizing columns, and a ballast control system. The tower is mounted over one of the columns. The stabilizing columns include internal volumes for containing a ballast. The ballast control system includes an alignment sensor and a controller. The alignment sensor is configured to detect a rotation of the tower. The controller is configured to direct a transfer of ballast from one column to another column to adjust an alignment of the tower.Type: GrantFiled: March 18, 2014Date of Patent: September 22, 2015Assignee: Principle Power, Inc.Inventors: Dominique Roddier, Christian Cermelli
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Publication number: 20140339828Abstract: A method for controlling an inclination of a floating wind turbine platform comprising a generator, a set of turbine blades connected to a shaft inside a turbine nacelle, the turbine nacelle being mounted onto a tower, and at least three stabilizing columns is presented. Each of the at least three stabilizing columns have an internal volume for containing ballast. Position data associated with an orientation of the floating wind turbine is received. A heel angle in reference to the floating wind turbine platform is determined based on the position data. A first signal for adjusting at least one of a blade pitch of the set of turbine blades, and a torque of the generator is sent based on the determined heel angle. A second signal for distributing the ballast among the at least three stabilizing columns is also sent. The second signal for distributing the ballast is based on the determined heel angle and the first signal.Type: ApplicationFiled: May 20, 2014Publication date: November 20, 2014Applicant: PRINCIPLE POWER, INC.Inventors: Antoine Peiffer, Christian Cermelli, Dominique Roddier
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Publication number: 20140196654Abstract: A floating wind turbine platform includes stabilizing columns, a tower, water-entrapment plates connected to the stabilizing columns, and a ballast control system. The tower is mounted over one of the columns. The stabilizing columns include internal volumes for containing a ballast. The ballast control system includes an alignment sensor and a controller. The alignment sensor is configured to detect a rotation of the tower. The controller is configured to direct a transfer of ballast from one column to another column to adjust an alignment of the tower.Type: ApplicationFiled: March 18, 2014Publication date: July 17, 2014Applicant: Principle Power, Inc.Inventors: Dominique Roddier, Christian Cermelli
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Patent number: 8692401Abstract: A mooring system for a semi-submersible platform includes buoyancy structures for providing buoyancy to the semi-submersible platform, mooring lines connected to the buoyancy structures, and anchors embedded in the sea floor that are connected to the mooring lines. At least one-half of the mooring lines are attached to one of the buoyancy structures. A ballast control system for a wind turbine platform includes a sensor that is configured to detect a rotation of a wind turbine and a controller that is configured to direct a transfer of ballast to correct the of the wind turbine.Type: GrantFiled: June 24, 2013Date of Patent: April 8, 2014Assignee: Principle Power, Inc.Inventors: Dominique Roddier, Christian Cermelli
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Publication number: 20130276687Abstract: A mooring system for a semi-submersible platform includes buoyancy structures for providing buoyancy to the semi-submersible platform, mooring lines connected to the buoyancy structures, and anchors embedded in the sea floor that are connected to the mooring lines. At least one-half of the mooring lines are attached to one of the buoyancy structures. A ballast control system for a wind turbine platform includes a sensor that is configured to detect a rotation of a wind turbine and a controller that is configured to direct a transfer of ballast to correct the of the wind turbine.Type: ApplicationFiled: June 24, 2013Publication date: October 24, 2013Inventors: Dominique Roddier, Christian Cermelli
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Patent number: 8471396Abstract: A floating wind turbine platform includes a floatation frame that includes at least three columns that are coupled to each other with horizontal main beams. A wind turbine tower is mounted above a tower support column to simplify the system construction and improve the structural strength. The turbine blades are coupled to a nacelle that rotates on top of the tower. The turbine's gearbox generator and other electrical gear can be mounted either traditionally in the nacelle, or lower in the tower or in the top of the tower-supporting column. The floatation frame includes a water ballasting system that pumps water between the columns to keep the tower in a vertical alignment regardless of the wind speed. Water-entrapment plates are mounted to the bottoms of the columns to minimize the rotational movement of the floatation frame due to waves.Type: GrantFiled: April 6, 2009Date of Patent: June 25, 2013Assignee: Principle Power, Inc.Inventors: Dominique Roddier, Christian Cermelli
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Patent number: 8007204Abstract: A method for providing a sustainable offshore community that includes a floatable, low cost platform structure which covers a large amount of real estate and is supported above the surface of the ocean from columns which pass through the structure such that the extremities of the structure are supported with stays that run from the top of the columns to the extremities of the platform. This type of staying structure permits the formation of the large floatable platform for supporting self sustaining communities by providing sizeable living and recreational areas, thus to permit an offshore community to exist at sea for a number of years.Type: GrantFiled: January 15, 2009Date of Patent: August 30, 2011Assignee: The Seasteading InstituteInventors: Alexia Aubault, Dominique Roddier, Christian Cermelli
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Publication number: 20110037264Abstract: A floating wind turbine platform includes a floatation frame (105) that includes three columns (102, 103) that are coupled to each other with horizontal main beams (115). A wind turbine tower (111) is mounted above a tower support column (102) to simplify the system construction and improve the structural strength. The turbine blades (101) are coupled to a nacelle (125) that rotates on top of the tower (111). The turbine's gearbox generator and other electrical gear can be mounted either traditionally in the nacelle, or lower in the tower (111) or in the top of the tower-supporting column (102). The floatation frame (105) includes a water ballasting system that pumps water between the columns (102, 103) to keep the tower (111) in a 10 vertical alignment regardless of the wind speed. Water-entrapment plates (107) are mounted to the bottoms of the columns (102, 103) to minimize the rotational movement of the floatation frame (105) due to waves.Type: ApplicationFiled: April 6, 2009Publication date: February 17, 2011Applicant: PRINCIPLE POWER, INC.Inventors: Dominique Roddier, Christian Cermelli