Abrégé

In a general aspect, a system is described for converting wave motion into electrical energy. The system may include a support structure formed of layers of cementitious material that define respective ridge surfaces on an exterior surface of the support structure. The system may also include a wave energy converter supported by the support structure and configured to generate electrical energy in response to flowing water contacting a movable surface of the wave energy converter.

Classes IPC  ?

• F03B 13/18 - Utilisation du mouvement relatif entre un élément déplacé par les vagues et un autre élément l'autre élément étant fixé, à au moins un point, par rapport au fond ou au bord de la mer
• B33Y 80/00 - Produits obtenus par fabrication additive
• E02B 3/06 - MôlesJetéesQuaisMurs de quaiÉpisBrise-lames

Abrégé

In a general aspect, suction anchors are presented for securing structures to an underwater floor. The suction anchors include a tubular body formed at least in part of cementitious materials and having a closed end and an open end. The tubular body includes an edge defining an opening for the open end. The edge is configured to penetrate the underwater floor. The suction anchors also include a port configured to fluidly-couple a cavity within the tubular body to an exterior of the tubular body. The suction anchors additionally include a pad eye extending from an outer surface of the tubular body and configured to couple to a mooring line. In another aspect, methods of manufacturing the suction anchors are also presented.

Classes IPC  ?

• E02D 5/32 - Pieux préfabriqués avec dispositions pour le fonçage par des jets de fluides
• B28B 1/00 - Fabrication d'objets façonnés à partir du matériau
• B28B 23/02 - Aménagements spécialement adaptés à la fabrication d'objets façonnés avec des éléments complètement ou partiellement enrobés dans le matériau de moulage dans lesquels les éléments enrobés sont des renforcements
• B33Y 10/00 - Procédés de fabrication additive
• B33Y 80/00 - Produits obtenus par fabrication additive
• E02B 17/00 - Iles artificielles montées sur pilotis ou supports similaires, p. ex. plates-formes sur pieds extensiblesProcédés de construction de celles-ci
• E02D 27/42 - Fondations pour poteaux, mâts ou cheminées
• E02D 27/52 - Fondations submergées
• F03D 13/25 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent spécialement adaptés à l’installation offshore
• F16B 47/00 - Ventouses pour accrochageMoyens équivalents utilisant des adhésifs

Abrégé

In a general aspect, a submersible barge includes a deck having a support surface and an additive manufacturing system. The submersible barge may be deployed on a body of water. The additive manufacturing system is configured to fabricate a cementitious body on the support surface by successively depositing layers of flowable cementitious material on top of each other. The submersible barge also includes a buoyancy system that is configured to lower the cementitious body into the body of water by altering a draft of the submersible barge between first and second drafts. When the submersible barge is at the first draft, the support surface resides above a surface of the body of water. When the submersible barge is at the second draft, the support surface resides below the surface of the body of water.

Classes IPC  ?

• F03B 13/06 - Centrales ou ensembles machine-appareil du type à accumulation d'eau
• F03D 9/00 - Adaptations des mécanismes moteurs à vent pour une utilisation particulièreCombinaisons des mécanismes moteurs à vent avec les appareils qu’ils entrainentMécanismes moteurs à vent spécialement adaptés à l’installation dans des endroits particuliers
• F03D 9/28 - Mécanismes moteurs à vent caractérisés par l’appareil entrainé l’appareil étant une pompe ou un compresseur

Abrégé

In a general aspect, support structures are described for supporting solar panels over a body of water. In some implementations, the support structures include legs formed of cementitious material. Each leg has a length that is configured to position an upper end of the leg above a surface of the body of water when a lower end of the leg contacts a floor of the body of water. The support structures also include a platform formed of cementitious material and having beams and leg interfaces. Locking mechanisms may be used to selectively secure and unsecure the leg interfaces to the legs. The support structures additionally include a deck that is configured to couple to an upper surface of the platform and secure one or more solar panels to the support structure.

Classes IPC  ?

• E02D 27/42 - Fondations pour poteaux, mâts ou cheminées
• E02D 27/52 - Fondations submergées
• E02D 5/58 - Pieux en béton précontraint
• E02B 17/00 - Iles artificielles montées sur pilotis ou supports similaires, p. ex. plates-formes sur pieds extensiblesProcédés de construction de celles-ci
• H02S 20/00 - Structures de support pour modules PV
• H02S 30/10 - Structures de bâti
• B63B 35/44 - Constructions, magasins, plates-formes de forage ou ateliers flottants, p. ex. portant des appareils séparateurs huile-eau

Produits et services

Manufacturing services for others of concrete anchors, foundations, and structures for offshore energy production and storage Concrete anchors, foundations, and structures for offshore energy production and storage. Engineering services for others of concrete anchors, foundations, and structures for offshore energy production and storage

Abrégé

In a general aspect, torpedo anchors are described for securing structures to an underwater floor. The torpedo anchors include a cylindrical body and a plurality of fins. The cylindrical body has first and second ends and an exterior cylindrical surface. The plurality of fins are disposed proximate the second end and extend outward from the exterior cylindrical surface. The cylindrical body is formed of cementitious material, and each of the plurality of fins is formed at least in part of cementitious material. In some variations, the first and second ends of the cylindrical body are, respectively, nose and tail ends of the cylindrical body. Moreover, the exterior cylindrical surface tapers into a tip at the nose end, and the tip is configured to penetrate an underwater floor.

Classes IPC  ?

• B63B 21/26 - Ancres avec système d'assurance de tenue sur le fond
• B63B 21/34 - Ancres rigides pendant l'utilisation à plusieurs pattes
• B63B 21/24 - Ancres
• B63B 21/30 - Ancres rigides pendant l'utilisation
• B63B 21/29 - Ancres avec système d'assurance de tenue sur le fond par des poids, p. ex. ancres-poids sans bras

Abrégé

In a general aspect, torpedo anchors are described for securing structures to an underwater floor. The torpedo anchors include a cylindrical body and a plurality of fins. The cylindrical body has first and second ends and an exterior cylindrical surface. The plurality of fins are disposed proximate the second end and extend outward from the exterior cylindrical surface. The cylindrical body is formed of cementitious material, and each of the plurality of fins is formed at least in part of cementitious material. In some variations, the first and second ends of the cylindrical body are, respectively, nose and tail ends of the cylindrical body. Moreover, the exterior cylindrical surface tapers into a tip at the nose end, and the tip is configured to penetrate an underwater floor.

Classes IPC  ?

• E02D 5/80 - Ancres de fondation
• B63B 21/50 - Dispositifs d'ancrage pour navires spéciaux, p. ex. pour plates-formes flottantes de forage ou dragues

Abrégé

In a general aspect, an anchor includes a tubular body that is formed at least in part of cementitious material and has open and closed ends. The anchor also includes a pad eye coupled to the tubular body and configured to couple to a mooring line. The tubular body includes a base wall, a perimeter wall, and a shear key. The base wall defines the closed end of the tubular body and has first and second surfaces on opposite sides of the base wall. The perimeter wall extends from the first surface of the base wall to the open end of the tubular body, and the shear key extends from the second surface of the base wall. The shear key is configured to penetrate an underwater floor and resist a lateral displacement of the anchor along the underwater floor when penetrated therein.

Classes IPC  ?

• B63B 21/26 - Ancres avec système d'assurance de tenue sur le fond
• B63B 21/48 - Ancres de merAncres flottantes
• B63B 21/50 - Dispositifs d'ancrage pour navires spéciaux, p. ex. pour plates-formes flottantes de forage ou dragues
• B63B 21/00 - Apparaux de manœuvreApparaux de déhalage, de remorquage ou de pousséeAncrage

Abrégé

In a general aspect, an anchor includes a tubular body that is formed at least in part of cementitious material and has open and closed ends. The anchor also includes a pad eye coupled to the tubular body and configured to couple to a mooring line. The tubular body includes a base wall, a perimeter wall, and a shear key. The base wall defines the closed end of the tubular body and has first and second surfaces on opposite sides of the base wall. The perimeter wall extends from the first surface of the base wall to the open end of the tubular body, and the shear key extends from the second surface of the base wall. The shear key is configured to penetrate an underwater floor and resist a lateral displacement of the anchor along the underwater floor when penetrated therein.

Classes IPC  ?

• B63B 21/30 - Ancres rigides pendant l'utilisation

Abrégé

In a general aspect, a system stores energy underwater. In sonic aspects, the system includes a base having a bottom side resting on an underwater floor and a top side that includes recessed surfaces. The system also includes domed walls extending from the top side of the base to form respective fluid chambers. Each of the fluid chambers includes an interior volume that is at least partially defined by one of the recessed surfaces and an interior surface of one of the domed walls. The system additionally includes a pump and a generator. The pump is configured to transport water from the fluid chambers toward an exterior environment of the system. The generator is configured to generate electrical energy in response to water flowing from the exterior environment toward the fluid chambers.

Classes IPC  ?

• F03B 13/06 - Centrales ou ensembles machine-appareil du type à accumulation d'eau
• F03D 9/28 - Mécanismes moteurs à vent caractérisés par l’appareil entrainé l’appareil étant une pompe ou un compresseur
• F03D 9/00 - Adaptations des mécanismes moteurs à vent pour une utilisation particulièreCombinaisons des mécanismes moteurs à vent avec les appareils qu’ils entrainentMécanismes moteurs à vent spécialement adaptés à l’installation dans des endroits particuliers

Abrégé

In a general aspect, a system stores energy underwater. In some aspects, the system includes a base having a bottom side resting on an underwater floor and a top side that includes recessed surfaces. The system also includes domed walls extending from the top side of the base to form respective fluid chambers. Each of the fluid chambers includes an interior volume that is at least partially defined by one of the recessed surfaces and an interior surface of one of the domed walls. The system additionally includes a pump and a generator. The pump is configured to transport water from the fluid chambers toward an exterior environment of the system. The generator is configured to generate electrical energy in response to water flowing from the exterior environment toward the fluid chambers.

Classes IPC  ?

• F03B 13/06 - Centrales ou ensembles machine-appareil du type à accumulation d'eau
• F03D 9/28 - Mécanismes moteurs à vent caractérisés par l’appareil entrainé l’appareil étant une pompe ou un compresseur
• F03D 9/00 - Adaptations des mécanismes moteurs à vent pour une utilisation particulièreCombinaisons des mécanismes moteurs à vent avec les appareils qu’ils entrainentMécanismes moteurs à vent spécialement adaptés à l’installation dans des endroits particuliers

Abrégé

In a general aspect, suction anchors are presented for securing structures to an underwater floor. The suction anchors include a tubular body formed at least in part of cementitious materials and having a closed end and an open end. The tubular body includes an edge defining an opening for the open end. The edge is configured to penetrate the underwater floor. The suction anchors also include a port configured to fluidly-couple a cavity within the tubular body to an exterior of the tubular body. The suction anchors additionally include a pad eye extending from an outer surface of the tubular body and configured to couple to a mooring line. In another aspect, methods of manufacturing the suction anchors are also presented.

Classes IPC  ?

• E02D 5/32 - Pieux préfabriqués avec dispositions pour le fonçage par des jets de fluides
• F16B 47/00 - Ventouses pour accrochageMoyens équivalents utilisant des adhésifs
• E02D 27/52 - Fondations submergées
• B28B 1/00 - Fabrication d'objets façonnés à partir du matériau
• B33Y 10/00 - Procédés de fabrication additive
• B33Y 80/00 - Produits obtenus par fabrication additive
• B28B 23/02 - Aménagements spécialement adaptés à la fabrication d'objets façonnés avec des éléments complètement ou partiellement enrobés dans le matériau de moulage dans lesquels les éléments enrobés sont des renforcements

Abrégé

In a general aspect, a system stores energy underwater. In some aspects, the system includes a base having a bottom side resting on an underwater floor and a top side that includes recessed surfaces. The system also includes domed walls extending from the top side of the base to form respective fluid chambers. Each of the fluid chambers includes an interior volume that is at least partially defined by one of the recessed surfaces and an interior surface of one of the domed walls. The system additionally includes a pump and a generator. The pump is configured to transport water from the fluid chambers toward an exterior environment of the system. The generator is configured to generate electrical energy in response to water flowing from the exterior environment toward the fluid chambers.

Classes IPC  ?

• F03B 13/06 - Centrales ou ensembles machine-appareil du type à accumulation d'eau
• F03B 13/10 - Ensembles fonctionnels immergés comportant génératrices ou moteurs électriques
• F03B 3/04 - "Machines" ou machines motrices du type "à réaction"Parties constitutives ou détails particuliers les concernant à écoulement à travers les rotors essentiellement axial, p. ex. turbopropulseurs
• F03B 11/00 - Parties constitutives ou détails non couverts par les groupes ou présentant un intérêt autre que celui visé par ces groupes

Abrégé

In a general aspect, a method is presented for manufacturing support structures for offshore wind turbines. In some implementations, the method includes constructing a plurality of modular sections that assemble to define the support structure. One or more of the plurality of modular sections are configured to anchor to an underwater floor. At least one of the plurality of modular sections is constructed by operations that include forming a wall along a perimeter to bound a volume, filling the volume with a castable material, and hardening the castable material. In some instances, forming the wall includes depositing layers of printable material successively on top of each other. The method also includes joining the plurality of modular sections to assemble the support structure.

Classes IPC  ?

• E02D 27/42 - Fondations pour poteaux, mâts ou cheminées
• F03D 13/20 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent
• E02D 27/04 - Fondations superficielles dans l'eau ou sur sables mouvants
• E02D 27/02 - Fondations à plat sans excavation importante
• E02D 27/52 - Fondations submergées
• F03D 13/25 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent spécialement adaptés à l’installation offshore

Abrégé

In a general aspect, a method is presented for manufacturing support structures for offshore wind turbines. In some implementations, the method includes constructing a plurality of modular sections that assemble to define the support structure. One or more of the plurality of modular sections are configured to anchor to an underwater floor. At least one of the plurality of modular sections is constructed by operations that include forming a wall along a perimeter to bound a volume, filling the volume with a castable material, and hardening the castable material. In some instances, forming the wall includes depositing layers of printable material successively on top of each other. The method also includes joining the plurality of modular sections to assemble the support structure.

Classes IPC  ?

• E02D 27/32 - Fondations pour des buts particuliers
• E02D 27/42 - Fondations pour poteaux, mâts ou cheminées
• E02D 27/04 - Fondations superficielles dans l'eau ou sur sables mouvants
• E02D 27/02 - Fondations à plat sans excavation importante
• E02D 27/52 - Fondations submergées
• F03D 13/20 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent
• F03D 13/25 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent spécialement adaptés à l’installation offshore

Abrégé

In a general aspect, a method is presented for manufacturing support structures for offshore wind turbines. In some implementations, the method includes constructing a plurality of modular sections that assemble to define the support structure. One or more of the plurality of modular sections are configured to anchor to an underwater floor. At least one of the plurality of modular sections is constructed by operations that include forming a wall along a perimeter to bound a volume, filling the volume with a castable material, and hardening the castable material. In some instances, forming the wall includes depositing layers of printable material successively on top of each other. The method also includes joining the plurality of modular sections to assemble the support structure.

Classes IPC  ?

• E02D 27/32 - Fondations pour des buts particuliers
• E02D 27/02 - Fondations à plat sans excavation importante
• E02D 27/04 - Fondations superficielles dans l'eau ou sur sables mouvants
• E02D 27/42 - Fondations pour poteaux, mâts ou cheminées
• E02D 27/52 - Fondations submergées
• F03D 13/20 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent
• F03D 13/25 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent spécialement adaptés à l’installation offshore

Abrégé

In a general aspect, a method is presented for manufacturing support structures for offshore wind turbines. In some implementations, the method includes constructing a plurality of modular sections that assemble to define the support structure. One or more of the plurality of modular sections are configured to anchor to an underwater floor. At least one of the plurality of modular sections is constructed by operations that include forming a wall along a perimeter to bound a volume, filling the volume with a castable material, and hardening the castable material. In some instances, forming the wall includes depositing layers of printable material successively on top of each other. The method also includes joining the plurality of modular sections to assemble the support structure.

Classes IPC  ?

• E02D 27/32 - Fondations pour des buts particuliers
• E02D 27/42 - Fondations pour poteaux, mâts ou cheminées
• E02D 27/04 - Fondations superficielles dans l'eau ou sur sables mouvants
• E02D 27/02 - Fondations à plat sans excavation importante
• E02D 27/52 - Fondations submergées
• F03D 13/20 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent
• F03D 13/25 - Dispositions pour monter ou supporter des mécanismes moteurs à ventPylônes ou tours pour des mécanismes moteurs à vent spécialement adaptés à l’installation offshore