公开(公告)号：US10519685B2

公开(公告)日：2019-12-31

申请号：US15122018

申请日：2015-03-02

Applicant: University of Maine System Board of Trustees

Inventor： Anthony M. Viselli ,  Habib J. Dagher

IPC: E04H12/16 ,  F03D13/20 ,  E04H12/34 ,  E04H12/12 ,  E04H12/02 ,  E04H12/08 ,  E04C5/08

Abstract: A wind turbine tower includes a plurality of tower sections axially aligned and connected together. Each tower section includes an inner wall having a tapered cylindrical shape concentrically positioned within an outer wall having a tapered cylindrical shape. An annular space is defined between the inner wall and the outer wall, and a layer of concrete is disposed within the annular space. A plurality of post-tensioning cables extend longitudinally within the annular space or outside the outer wall, such that a first one of the tower sections is connected to a second one of the tower sections by a plurality of the post-tensioning cables.

公开(公告)号：US10518846B2

公开(公告)日：2019-12-31

申请号：US15116620

申请日：2015-02-06

Applicant: University of Maine System Board of Trustees

Inventor： Habib J. Dagher ,  Anthony M. Viselli ,  John E. Halkyard

IPC: B63B9/06 ,  F03D13/25 ,  B63B1/10 ,  F03D13/10 ,  B63B5/18 ,  B63B21/20 ,  B63B21/50 ,  F03D1/06 ,  F03D3/00 ,  B21D47/00 ,  B63B35/44

Abstract: A floating wind turbine farm 230 includes a plurality of anchors 20/202/204/206/208 fixed in or on a bed of a body of water. A plurality of floating wind turbine platforms 10 is deployed in the body of water, each of the floating wind turbine platforms 10 having one or more mooring lines 200/212 that extend between, and are attached to, the floating wind turbine platform 10 and one of the anchors 20/202/204/206/208. Each anchor 20/202/204/206/208 is configured to receive two or more mooring lines 200/212, wherein each of the mooring lines 200/212 are from a different one of the plurality of floating wind turbine platforms 10.

公开(公告)号：US20190263477A1

公开(公告)日：2019-08-29

申请号：US16411172

申请日：2019-05-14

Applicant: University of Maine System Board of Trustees

Inventor： Habib J. Dagher ,  Anthony M. Viselli

IPC: B63B9/06 ,  F03D1/06 ,  F03D3/00 ,  B63B1/10 ,  F03D13/10 ,  B63B5/18 ,  B63B21/50 ,  B63B21/20 ,  F03D13/25

Abstract: A method of assembling a floating wind turbine platform includes forming a base assembly of the floating wind turbine platform in either a cofferdam or a graving dock built in water having a first depth. The base assembly includes a keystone and a plurality of buoyant bottom beams extending radially outward of the keystone, wherein longitudinal axes of each of the plurality of bottom beams are coplanar. The cofferdam or the graving dock is flooded and the assembled base assembly is floated to an assembly area in water having a second depth. A center column and a plurality of outer columns are assembled or formed on the base assembly, a tower is assembled or formed on the center column, and a wind turbine is assembled on the tower, thereby defining the floating wind turbine platform.

公开(公告)号：US10202174B2

公开(公告)日：2019-02-12

申请号：US15501012

申请日：2015-08-12

Applicant: University of Maine System Board of Trustees

Inventor： Habib J. Dagher ,  Neal Pettigrew ,  Anthony M. Viselli ,  Rachael Joyce ,  John Wallinga ,  Patrick Fikes ,  Neil R. Fisher

IPC: B63B22/20 ,  B63B22/04 ,  G01P5/00 ,  G01S17/58 ,  B63B22/00

Abstract: A floating buoy includes a buoy hull having a tower that extends outwardly from the hull. A plurality of sensors are mounted either on the buoy hull, within the buoy hull, and/or on the tower. The plurality of sensors includes at least one met-ocean sensor, at least one ecological sensor, and at least one wind speed measurement sensor. The floating buoy further includes an autonomous power system that is configured to provide electrical power to each of the plurality of sensors. The wind speed measurement sensor may be a Light Detection and Ranging (LiDAR) wind speed measurement sensor, a surface level wind speed sensor, an ultrasonic wind speed sensor, or SODAR.

公开(公告)号：US20160230746A1

公开(公告)日：2016-08-11

申请号：US15023839

申请日：2014-09-24

Applicant: University of Maine System Board of Trustees

Inventor： Habib J. Dagher ,  Anthony M. Viselli

IPC: F03D13/25 ,  E02B17/02 ,  F03D7/04 ,  B63B35/44 ,  F03D1/06 ,  F03D1/00

CPC classification number: F03D13/25 ,  B63B1/107 ,  B63B5/20 ,  B63B9/065 ,  B63B35/44 ,  B63B39/03 ,  B63B2001/128 ,  B63B2035/446 ,  E02B17/027 ,  E02B2017/0091 ,  F03D1/06 ,  F03D7/043 ,  F03D13/10 ,  F03D13/22 ,  F05B2240/93 ,  Y02E10/721 ,  Y02E10/725 ,  Y02E10/727

Abstract: A semi-submersible wind turbine platform is capable of floating on a body of water and supporting a wind turbine, and includes a keystone. At least three bottom beams extend radially outward of the keystone, and a center column extends perpendicularly from an upper surface of the keystone, a first axial end of the center column attached to the keystone; the center column configured to have a tower attached to a second axial end thereof. One of a plurality of outer columns ex-tends perpendicularly from an upper surface of each bottom beam, wherein first axial ends of the outer columns are attached to a distal end of each bottom beam. One of a plurality of top beams extends between a second axial end of each outer column and a second axial end of the center column, wherein the top beams are configured substantially not to resist bending moment of a tower attached to the center column.

Abstract translation: 半潜式风力涡轮机平台能够漂浮在水体上并支撑风力涡轮机，并且包括梯形失真。 至少三个底部梁在梯形件的径向外侧延伸，并且中心柱从梯形件的上表面垂直地延伸，中心柱的第一轴向端附接到梯形失真件; 所述中心柱被构造成具有附接到其第二轴向端的塔。 多个外柱中的一个从每个底梁的上表面垂直地倾斜，其中外柱的第一轴向端附接到每个底梁的远端。 多个顶梁中的一个在每个外柱的第二轴向端和中心柱的第二轴向端之间延伸，其中顶梁被配置为基本上不抵抗连接到中心柱的塔的弯矩。

公开(公告)号：US20150206404A1

公开(公告)日：2015-07-23

申请号：US14484999

申请日：2014-09-12

Applicant: University of Maine System Board of Trustees

Inventor： Habib J. Dagher ,  Eric D. Cassidy ,  Anthony M. Viselli ,  Bruce Segee

IPC: G08B13/26 ,  G01R31/02 ,  G01M11/00

CPC classification number: B32B21/08 ,  B32B3/06 ,  B32B2262/101 ,  B32B2439/40 ,  B65D88/12 ,  B65D90/02 ,  B65D90/022 ,  B65D90/023 ,  B65D90/08 ,  B65D90/48 ,  B65D2101/00 ,  G01D5/16 ,  G01M11/332 ,  G01R31/021 ,  G01R31/025 ,  G08B13/26 ,  Y10T428/16 ,  Y10T428/161 ,  Y10T428/18 ,  Y10T428/183 ,  Y10T428/187 ,  Y10T428/24995

Abstract: A weldable hybrid composite panel suitable for forming a container includes a four sided composite panel element wherein each side defines a side edge. The composite panel element is formed of fibrous reinforcement layers encased in a resin matrix. Weldable metallic elongated edge elements extend along and are either fixed to the side edges of an outside surface of the panel element or extend from a periphery of the panel element. Each of the weldable elongated edge elements has a profile that is the same as a profile of its respective side edge and is structured to enable the composite panel to be welded at its peripheral edges. The panel element also includes a sensor system embedded therein.

Abstract translation: 适用于形成容器的可焊接混合复合板包括四面复合面板元件，其中每侧限定侧边缘。 复合面板元件由包裹在树脂基体中的纤维增强层形成。 可焊接的金属细长边缘元件沿着并且固定到面板元件的外表面的侧边缘或者从面板元件的周边延伸。 每个可焊接的细长边缘元件具有与其相应侧边缘的轮廓相同的轮廓，并且被构造成使复合板能够在其周边边缘处被焊接。 面板元件还包括嵌入其中的传感器系统。

公开(公告)号：US20240101232A1

公开(公告)日：2024-03-28

申请号：US18372832

申请日：2023-09-26

Applicant: University of Maine System Board of Trustees

Inventor： Christopher K. Allen ,  Andrew J. Goupee ,  Richard Kimball ,  Anthony M. Viselli ,  Habib J. Dagher

IPC: B63B39/03

CPC classification number: B63B39/03 ,  B63B2035/446

Abstract: A barge-type wind turbine platform in combination with a heel tank damper includes a barge-type wind turbine platform having a keystone, two pairs of bottom beams, each including two bottom beams connected to opposite sides of the keystone, wherein the combined pairs of bottom beams define a foundation. A U-shaped ballast conduit is mounted or formed within each of the pairs of bottom beams. Each ballast conduit has ballast water therein, the ballast water extending from an outwardly extending portion of each bottom beam of each pair of bottom beams, such that a volume of air is defined between a surface of the ballast water in each outwardly extending portion and an outwardly facing wall of each outwardly extending portion, and an internal damping element is provided within each ballast conduit. A heel tank damper is defined by the ballast conduits and their respective internal damping elements.

公开(公告)号：US20210387702A1

公开(公告)日：2021-12-16

申请号：US17290518

申请日：2019-11-04

Applicant: University of Maine System Board of Trustees

Inventor： Christopher K. Allen ,  Anthony M. Viselli ,  Andrew J. Goupee ,  Habib J. Dagher ,  Robert E. Berry ,  Jeffrey L. Lindner ,  Fredrick S. Gant ,  John S. Towsend ,  Rebecca L. Williams

IPC: B63B39/02 ,  B63B35/44 ,  B63B79/15 ,  F03D13/25

Abstract: A tuned mass damper (TMD) system in combination with a floating offshore wind turbine (FOWT) platform includes a barge type FOWT platform having a hull configured to have a wind turbine tower mounted thereon. A TMD system is mounted in the hull and has a first TMD configured to operate at a first frequency, and a second TMD configured to operate at a second frequency different than the first frequency.

公开(公告)号：US20190211797A1

公开(公告)日：2019-07-11

申请号：US16330196

申请日：2017-09-05

Applicant: University of Maine System Board of Trustees

Inventor： Anthony M. Viselli ,  Habib J. Dagher

IPC: F03B13/18 ,  F03B13/12 ,  F03B13/14 ,  F03B13/16 ,  F03B13/20

CPC classification number: F03B13/18 ,  F03B13/12 ,  F03B13/14 ,  F03B13/16 ,  F03B13/20 ,  F05B2230/60 ,  F05B2250/231 ,  F05B2250/72 ,  Y02E10/38

Abstract: A wave energy converter (10) is capable of floating on a body of water (BW), moving in response to waves (W) occurring in the body of water (BW), and includes a hull (12) connected to a heave plate (14). The wave energy converter (10) is characterized in that the hull (12) is formed from reinforced concrete, a plurality of connecting tendons (16) extend between the hull (12) and the heave plate (14), and a power take off (66) is attached to each connecting tendon (16).

公开(公告)号：US20160341182A1

公开(公告)日：2016-11-24

申请号：US15116620

申请日：2015-02-06

Applicant: UNIVERSITY OF MAINE SYSTEM BOARD OF TRUSTEES

Inventor： Habib J. Dagher ,  Anthony M. Viselli ,  John E. Halkyard

IPC: F03D13/25 ,  F03D1/06 ,  F03D3/00 ,  B63B35/44

Abstract: A floating wind turbine farm 230 includes a plurality of anchors 20/202/204/206/208 fixed in or on a bed of a body of water. A plurality of floating wind turbine platforms 10 is deployed in the body of water, each of the floating wind turbine platforms 10 having one or more mooring lines 200/212 that extend between, and are attached to, the floating wind turbine platform 10 and one of the anchors 20/202/204/206/208. Each anchor 20/202/204/206/208 is configured to receive two or more mooring lines 200/212, wherein each of the mooring lines 200/212 are from a different one of the plurality of floating wind turbine platforms 10.

Abstract translation: 浮动风力涡轮机场230包括固定在水体床中或床上的多个锚20/202/204/206/208。 多个浮动风力涡轮机平台10部署在水体中，每个浮动风力涡轮机平台10具有一个或多个系泊缆线200/212，其在浮动风力涡轮机平台10之间延伸并附接到浮动风力涡轮机平台10，一个 的锚20/202/204/206/208。 每个锚20/202/204/206/208被配置为接收两个或更多个系泊绳200/212，其中每个系泊绳200/212来自多个浮动风力涡轮机平台10中的不同的一个。