A wind turbine system comprises a vessel; a wind turbine mounted to the vessel, the wind turbine comprising rotor blades configured to convert an airstream to rotational shaft power, and an electrical generator configured to convert the rotational shaft power to electrical power; a hydrogen production system configured to be powered by the electrical generator; a propulsion system configured to propel the vessel via power from the electrical generator; and a steering system to control orientation of the vessel relative to the water and the airstream. A method of producing hydrogen comprises floating a vessel in open sea in areas of wind; rotating a wind turbine with the wind to produce electrical energy; synthesizing hydrogen gas from seawater utilizing the electrical energy from the wind turbine; storing the hydrogen gas in a storage system transported by the vessel; and offloading the hydrogen from the storage system.

A wind turbine system comprises a vessel; a wind turbine mounted to the vessel, the wind turbine comprising rotor blades configured to convert an airstream to rotational shaft power, and an electrical generator configured to convert the rotational shaft power to electrical power; a hydrogen production system configured to be powered by the electrical generator; a propulsion system configured to propel the vessel via power from the electrical generator; and a steering system to control orientation of the vessel relative to the water and the airstream. A method of producing hydrogen comprises floating a vessel in open sea in areas of wind; rotating a wind turbine with the wind to produce electrical energy; synthesizing hydrogen gas from seawater utilizing the electrical energy from the wind turbine; storing the hydrogen gas in a storage system transported by the vessel; and offloading the hydrogen from the storage system.

A mooring system comprises a pair of first mooring elements configured at first ends for connection to a floating vessel, and a pair of second mooring elements configured at first ends for connection to a seabed below a water surface. A restrictor member is connected between said pair of first mooring elements' second ends. The restrictor member has a length dimension that is less than or equal to the width of the vessel to which the mooring system is connected.

A mooring system comprises a pair of first mooring elements configured at first ends for connection to a floating vessel, and a pair of second mooring elements configured at first ends for connection to a seabed below a water surface. A restrictor member is connected between said pair of first mooring elements' second ends. The restrictor member has a length dimension that is less than or equal to the width of the vessel to which the mooring system is connected.

Systems and methods for natural gas storage and transport with a mobile unit, the method including charging a mobile natural gas storage and transport unit with natural gas via adsorption of the natural gas on adsorbent materials disposed within the natural gas storage and transport unit; transporting the natural gas storage and transport unit a distance to proximate a natural gas power generation unit; and discharging the natural gas over time via desorption of the natural gas from the adsorbent materials to power the natural gas power generation unit.

A methane transportation system is provided. The system may include a methane source configured to dispense methane at a first location, and an underwater vehicle. The underwater vehicle may include a propulsion system configured to transport the underwater vehicle underwater from the first location to a second location and a vessel defining a storage chamber configured to receive water and the methane from the methane source. The storage chamber of the vessel may have a pressure exceeding one atmosphere and a temperature during transport from the first location to the second location sufficient to form methane clathrate in the storage chamber. The system may further include a methane receiver configured to receive the methane released from the storage chamber at the second location. Related methods are also provided.

A Very Large Bag (VLB) suitable for containing and transporting various liquids is disclosed that includes solar arrays to generate electric power. The VLB further comprises various features useful in the transportation, navigation, and storage of liquids on very large bodies of water, such as an ocean. Such features include navigational and positioning devices, powered by solar arrays that include perovskite materials with efficiencies that exceed silicon based solar arrays. Aspects of embodiments of the present invention further include features useful for purifying or preserving the purity of the fluid being transported.

A Very Large Bag (VLB) suitable for containing and transporting various liquids is disclosed that includes solar arrays to generate electric power. The VLB further comprises various features useful in the transportation, navigation, and storage of liquids on very large bodies of water, such as an ocean. Such features include navigational and positioning devices, powered by solar arrays that include perovskite materials with efficiencies that exceed silicon based solar arrays. Aspects of embodiments of the present invention further include features useful for purifying or preserving the purity of the fluid being transported.

A gas processing system according to an embodiment of the present invention controls inflow fuel pressure of a low pressure demand source according to an operation or a non-operation of a high pressure demand source and the low pressure demand source.

Systems and methods for natural gas storage and transport with a mobile unit, the method including charging a mobile natural gas storage and transport unit with natural gas via adsorption of the natural gas on adsorbent materials disposed within the natural gas storage and transport unit; transporting the natural gas storage and transport unit a distance to proximate a natural gas power generation unit; and discharging the natural gas over time via desorption of the natural gas from the adsorbent materials to power the natural gas power generation unit.