A floating structure based on the tensegrity principle is described. A planar closed loop structure (1700) has a plurality of beams (300) and a plurality of beam adapters (700). Each of the plurality of beams (300) is formed by coupling multiple n-strut twisted prism units. Each of the multiple n-strut twisted prism units includes n-sided planar polygonal surfaces on opposite sides through which the respective n-strut twisted prism unit is coupled to another n-strut twisted prism unit or a beam adapter. Each of the plurality of beam adapters (700) is an m-strut twisted prism unit having planar polygonal side faces for coupling to an n-sided planar polygonal surface of a beam (300).

Disclosed herein are hydrofoil vessels and systems integrated with renewable energy sources. In one aspect, the hydrofoil vessel includes one or more hulls, an omni-directional platform connecting the one or more hulls of the hydrofoil vessel. The omni-directional platform may include at least one of: a sail, a wind turbine, a solar panel, a hydroelectric motor, a hydrofoil controller platform, and a battery component. Also disclosed herein are methods and computer readable medium for controlling an omni direct modular hydrofoil vessel having one or more hulls integrated with renewable-energy sources.

A method and apparatus for producing electricity from a combination of three sources: ocean waves, wind and solar, includes converting an upward and downward motion of a buoyant platform into a rotational motion of a shaft using a plurality of blades mounted to the shaft, the blades causing the shaft to rotate from internal wind energy as the blades move up and down within a cavity. The shaft is coupled to a generator for producing electricity. A wind turbine is mounted to the buoyant platform for converting wind energy into electricity. Further, solar panels are included, for example, mounted to the buoyant platform and/or turbine blades of the wind turbine, the solar panels also generate electricity when exposed to light.

The invention relates to an offshore charging station (OCS) for water vessels at least partially electrically driven comprising one or more chargers with one or more charging interfaces for wired/wireless static/dynamic charging/discharging and supported by various supporting constructions. The OCS may further comprise charging interface mounts, marine engineering constructions, facilities, operational security control elements, thermal management systems, marine attachments, payment terminals. The OCS may be part of a cloud-based communication system, a hydrogen powering system, a marine fuelling system, a marine rechargeable power source system comprising a rechargeable power source, a source management system, a buoyant or a nonbuoyant container, a charging interface, a mobility device, a payment terminal, a thermal management system, a power source. The OCS and the marine rechargeable power source may provide data transmissions and may be provided in a modular system. An offshore swapping method using the marine rechargeable power source is proposed.

A floating solar system, comprising a floating base having, a buoyance and a lower base frame coupled to the buoyance, a center frame coupled to the lower base frame, an anchor coupled to the lower base frame, a plurality of solar panels affixed to the lower base frame and the center frame to provide electrical power, a lightning rod coupled to the center frame and a lightning rod cap coupled to the lightning rod.

Example implementations include a system and method of using plastic from bodies of water and creating a floating platform by collecting plastic from a body of water, cleaning the collected plastic, melting and compacting the plastic, molding a plurality of hexagonal blocks from the compacted plastic, stacking the plurality of hexagonal blocks, wherein a system of springs and an energy storage device is provided between each of the plurality of hexagonal blocks, and coating the stacked blocks with a non-toxic material. Through the use of various onboard functionalities, energy may be generated to regulate temperature and provide electricity, oxygen may be supplied, and water may be purified.

A floating solar array having a grid of structural members with openings therebetween and supporting pontoons underneath. One or more floating solar PV modules are positioned in each of the openings and elastic connectors are used to isolate these floating solar PV modules from the movement of the structural member grid. A first end of each of the elastic connectors are connected to the structural members or to one of the grid supporting pontoons, while a second end of each elastic connector is connected either to a PV module supporting pontoon or to the PV module mounted thereon. Together, these elastic connectors allow for limited linear and torsional movement of each of the floating solar PV modules with respect to the structural member grid.

The invention relates to an offshore wireless power transfer system for water vessels at least partially electrically driven comprising a primary interface coupled with a power source and a secondary interface coupled with the water vessel, the interfaces providing unidirectional or bidirectional power transfer which can be inductive, capacitive, and/or magnetodynamic. The primary interface can have connected power transfer sections which can be switchable. Inductive system can include inductive loops, capacitive system can include capacitive plates and magnetodynamic can include magnetic elements and loops. The system can be thermally managed. The interfaces can be buoyant or nonbuoyant, level adjustable. The power transfer can take place at about/under/above water level. The secondary interface can be mobile or coupled with a mobile device. The intefaces can include electrocomponents. The system can provide data transmissions, and be provided in a cloud-based communication system, a hydrogen powering system and a modular system.

The invention relates to a floating structure, comprising a plurality of interconnected frames and a plurality of buoyant members supporting the structure, wherein the frames are substantially triangular in planform. Adjacent triangular frames may be movably connected, in particular pivotably connected. The triangular frames may comprise right-angle triangles, isosceles triangles or equilateral triangles. The floating structure may support an installation, like e.g. a solar farm. The invention also relates to a triangular frame for use in such a floating structure.

The invention provides a floating platform for solar panel arrays, comprised of at least one modular unit, comprising: a photovoltaic solar panel array; a pair of essentially triangular floats, having an angled upper side, for supporting said photovoltaic solar panel array at an angle; support bars connected above said floats and perpendicular to said angled upper side of said floats, supporting said photovoltaic solar panel array above said floats.

In some embodiments, the float may have an angled underside to provide buoyancy and rocking movement upon water. In some embodiments, the float is made of closed cell polyethylene foam.