An underwater propulsion device is disclosed comprising two sleeves for fitting around each of a user's lower legs, with each sleeve mounting a propulsion unit, and the sleeves being connectable by a bar between them during underwater operation of the device by the user.

An underwater propulsion device is disclosed comprising two sleeves for fitting around each of a user's lower legs, with each sleeve mounting a propulsion unit, and the sleeves being connectable by a bar between them during underwater operation of the device by the user.

An underwater propulsion device is disclosed comprising two sleeves for fitting around each of a user's lower legs, with each sleeve mounting a propulsion unit, and the sleeves being connectable by a bar between them during underwater operation of the device by the user.

An underwater propulsion device is disclosed comprising two sleeves for fitting around each of a user's lower legs, with each sleeve mounting a propulsion unit, and the sleeves being connectable by a bar between them during underwater operation of the device by the user.

An electric waterborne transport system is disclosed which includes a plurality of electric power generators deployed over a waterbody, the plurality of electric power generators generating electricity from a renewable energy source, and a power line suspended above a surface of the waterbody and spanning between two distant destinations, the power line receiving electricity from the plurality of electric power generators and transmitting the electricity to a cargo ship to propel the cargo ship to travel along the power line.

An electric waterborne transport system is disclosed which includes a plurality of electric power generators deployed over a waterbody, the plurality of electric power generators generating electricity from a renewable energy source, and a power line suspended above a surface of the waterbody and spanning between two distant destinations, the power line receiving electricity from the plurality of electric power generators and transmitting the electricity to a cargo ship to propel the cargo ship to travel along the power line.

The present invention relates to an apparatus and method for the localized capture, storage and specialized use of power generated from natural sources, such as solar power or hydropower. The apparatus can be used, for example, on a deck or a side of a marine vessel, or on a land-based structure, where there is a requirement for managed power generation and storage.

The present invention relates to an apparatus and method for the localized capture, storage and specialized use of power generated from natural sources, such as solar power or hydropower. The apparatus can be used, for example, on a deck or a side of a marine vessel, or on a land-based structure, where there is a requirement for managed power generation and storage.

A submerged floating rail transit system comprises a first rope (102), a buoyancy tank (103), a rail (104), a gear (108), a driving mechanism, a cable (110) and a second rope (111); wherein one end of the first rope is anchored to the water ground (101), and the other end of the first rope is connected with the buoyancy tank; the rail is provided on the buoyancy tank, the gear is engaged with the toothed rail of the rail, and a driving mechanism is provided on the rail; the driving mechanism drives the gear to move along the extending direction of the rail; the driving mechanism comprises a shell (105), a first motor (106), a second motor (107) and a rotating shaft (109); one end of the second rope is connected with the shell, and the other end of the second rope is connected with a ship (113) on the water surface (112); the first motor and the second motor rotate in the same direction to drive the gear to rotate, thus generating traction force, so that the driving mechanism moves along the extending direction of the rail, and the driving mechanism pulls the ship to move through the second rope. The submerged floating rail transit system solves the problem of low efficiency of submerged transportation in the prior art and realizes efficient transportation on the water surface.

A submerged floating rail transit system comprises a first rope (102), a buoyancy tank (103), a rail (104), a gear (108), a driving mechanism, a cable (110) and a second rope (111); wherein one end of the first rope is anchored to the water ground (101), and the other end of the first rope is connected with the buoyancy tank; the rail is provided on the buoyancy tank, the gear is engaged with the toothed rail of the rail, and a driving mechanism is provided on the rail; the driving mechanism drives the gear to move along the extending direction of the rail; the driving mechanism comprises a shell (105), a first motor (106), a second motor (107) and a rotating shaft (109); one end of the second rope is connected with the shell, and the other end of the second rope is connected with a ship (113) on the water surface (112); the first motor and the second motor rotate in the same direction to drive the gear to rotate, thus generating traction force, so that the driving mechanism moves along the extending direction of the rail, and the driving mechanism pulls the ship to move through the second rope. The submerged floating rail transit system solves the problem of low efficiency of submerged transportation in the prior art and realizes efficient transportation on the water surface.