A water-driven turbine has an elongated endless conveyor with down and up streaming straightaways connected by travel-reversing turns. Paddles mounted on the conveyor present high resistance to waterflow on the downstream straightaway and low resistance to waterflow or the atmosphere on the upstream straightaway, the differential allowing the flow of water to continuously drive the conveyor which is connected to a power take-off shaft facilitating connection to a variety of energy-harnessing systems. The turbine can be towed, self-driven or mooring line manipulated to a flow site and is operable in unidirectional flows such as rivers and reversing flows such as tides at depths from surface to bottom. The paddles can be mounted or changed on shore, at the flow site and anywhere in between. The turbine is efficient in low and high velocity water flow, not easily damaged by floating debris, cavitation free and fish, mammal and environmentally friendly.

A water-driven turbine has an elongated endless conveyor with down and up streaming straightaways connected by travel-reversing turns. Paddles mounted on the conveyor present high resistance to waterflow on the downstream straightaway and low resistance to waterflow or the atmosphere on the upstream straightaway, the differential allowing the flow of water to continuously drive the conveyor which is connected to a power take-off shaft facilitating connection to a variety of energy-harnessing systems. The turbine can be towed, self-driven or mooring line manipulated to a flow site and is operable in unidirectional flows such as rivers and reversing flows such as tides at depths from surface to bottom. The paddles can be mounted or changed on shore, at the flow site and anywhere in between. The turbine is efficient in low and high velocity water flow, not easily damaged by floating debris, cavitation free and fish, mammal and environmentally friendly.

Consistent kinetic energy is harvested from wind and from flowing water in streams, rivers and tidal flows using a translating large sail, foil or wing which is permitted to translate in one direction, followed by translating in the opposite direction while pushing or pulling a cable, rod, or tether which in turn turns a pulley, wheel or other device from which traditional sources of power can be generated. The pulley wheel can be used to generate electricity, create hydrogen from water by electrolysis, compress air for transmission or storage, charge batteries, or perform work such as pumping water, heating water, moving objects, etc.

A water-driven turbine has an elongated endless conveyor with down and up streaming straightaways connected by travel-reversing turns. Paddles mounted on the conveyor present high resistance to waterflow on the downstream straightaway and low resistance to waterflow or the atmosphere on the upstream straightaway, the differential allowing the flow of water to continuously drive the conveyor which is connected to a power take-off shaft facilitating connection to a variety of energy-harnessing systems. The turbine can be towed, self-driven or mooring line manipulated to a flow site and is operable in unidirectional flows such as rivers and reversing flows such as tides at depths from surface to bottom. The paddles can be mounted or changed on shore, at the flow site and anywhere in between. The turbine is efficient in low and high velocity water flow, not easily damaged by floating debris, cavitation free and fish, mammal and environmentally friendly.

A hydro power plant for the use of a water flow includes an endless moving belt on which a plurality of blades is foldably attached. The moving belt is guided around at least two deflection points in such a way that there are two rows of blades moving in opposite directions during operation. At least one of the two rows of blades is oriented inclined to the direction of the water flow. At the deflection points, the blades are folded over from a first blade position into a second blade position and from the second blade position back into the first blade position.

A hydro power plant for the use of a water flow includes an endless moving belt on which a plurality of blades is foldably attached. The moving belt is guided around at least two deflection points in such a way that there are two rows of blades moving in opposite directions during operation. At least one of the two rows of blades is oriented inclined to the direction of the water flow. At the deflection points, the blades are folded over from a first blade position into a second blade position and from the second blade position back into the first blade position.

An ocean current turbine for converting water currents energy includes the following features: a main frame arranged to be immersed in a water current, wherein the main frame comprises a bow part towards the water current, endless rotation chains with plates arranged to being captured at the bow part and driven backward by the water current, wherein the rotation chain runs about and in driving engagement with one or more driven wheels that operates a generator, and port and starboard side frames that are continuously convex and extends from the bow section and back to a transverse wide stern that is narrower than the greatest distance between port and starboard side frames, wherein the rotation chains include a starboard and a port endless rotation chain with the plates, and a reversing mechanism arranged to turn each plate to catch the water current at the bow part, so that each plate is driven backwards along the starboard, respectively port side frame, to back at the rear end of the wide stern part, and where the turning mechanism turns each plate to a passive state where the plate does not substantially catches the water when plate is led forward again by the rotation chain in a shielded cavity between starboard and port side frames and extending to the bow part.

A water-driven turbine has an elongated endless conveyor with down and up streaming straightaways connected by travel-reversing turns. Paddles mounted on the conveyor present high resistance to waterflow on the downstream straightaway and low resistance to waterflow or the atmosphere on the upstream straightaway, the differential allowing the flow of water to continuously drive the conveyor which is connected to a power take-off shaft facilitating connection to a variety of energy-harnessing systems. The turbine can be towed, self-driven or mooring line manipulated to a flow site and is operable in unidirectional flows such as rivers and reversing flows such as tides at depths from surface to bottom. The paddles can be mounted or changed on shore, at the flow site and anywhere in between. The turbine is efficient in low and high velocity water flow, not easily damaged by floating debris, cavitation free and fish, mammal and environmentally friendly.

A water-driven turbine has an elongated endless conveyor with down and up streaming straightaways connected by travel-reversing turns. Paddles mounted on the conveyor present high resistance to waterflow on the downstream straightaway and low resistance to waterflow or the atmosphere on the upstream straightaway, the differential allowing the flow of water to continuously drive the conveyor which is connected to a power take-off shaft facilitating connection to a variety of energy-harnessing systems. The turbine can be towed, self-driven or mooring line manipulated to a flow site and is operable in unidirectional flows such as rivers and reversing flows such as tides at depths from surface to bottom. The paddles can be mounted or changed on shore, at the flow site and anywhere in between. The turbine is efficient in low and high velocity water flow, not easily damaged by floating debris, cavitation free and fish, mammal and environmentally friendly.

A hydroelectric power plant for a water stream includes an electromechanical converter and a turbine driving the converter. The turbine includes two vertical supports parallel to the flow and, between the supports, driving blades moved by the hydrodynamic lift forces, connected at each end to a drive component. The turbine further includes wheels driven by the drive component and assembled on the supports. The hydroelectric power plant includes at least first, second, and third travel areas where each drive component extends rectilinearly, the leading edges of the blades being arranged horizontally plus or minus 5 at least in the first and second travel areas. Each support includes guides and each blade includes elements abutting against the guides.