Underwater hydroelectric power generation system including a pelton turbine and perforated tubular penstocks

The invention claimed is: 1. A turbo-generator assembly for producing electrical power underwater, the assembly comprising: a pressure-resistant shell that defines a sealed internal chamber and is arranged to maintain a gas-filled space within the chamber; at least one water inlet extending through the shell to effect fluid communication between the chamber and a body of water surrounding the shell; a Pelton turbine supported within the chamber to turn in the gas-filled space on a spin axis in response to admission of a flow of water into the chamber via the at least one water inlet; and a drainage receptacle that communicates with the chamber to receive water falling from the turbine, wherein the drainage receptacle is attached to or integrated with an accessory module of a pipeline or with a towhead module of a pipeline bundle, and wherein the shell is separably mountable and sealable to the drainage receptacle; wherein the assembly is installed on a seabed or the body of water, the spin axis of the turn being generally perpendicular to the seabed; wherein the at least one water inlet communicates with at least one tubular penstock structure via at least one injector pipe, the injector protruding outward from the shell into the body of water and extending upward toward a surface of the body of water in a direction perpendicular to the seabed, the penstock structure comprising a tabular body extending outside the shell in the perpendicular direction, the penstock structure comprising an intake portion perforated with a plurality of openings to accept and filter an incoming flow of water from the body of water, the penstock structure further comprising a tapering accelerator portion disposed between the intake portion and the injector pipe. 2. The assembly of claim 1 , wherein the at least one penstock structure is supported by the assembly. 3. The assembly of claim 1 , wherein the chamber further contains a ring duct that communicates with the at least one water inlet and with a circumferential array of nozzles that surrounds the turbine. 4. The assembly of claim 1 , wherein the shell comprises a domed portion around the turbine. 5. The assembly of claim 1 , further comprising a generator supported by the shell, the generator configured to generate the electrical power when rotated by the turbine. 6. The assembly of claim 1 , further comprising a transformer supported by the assembly. 7. The assembly of claim 6 , wherein the spin axis intersects the transformer. 8. The assembly of claim 1 , wherein the drainage receptacle has an outlet for fluid communication with a fluid storage volume. 9. A power plant for producing electrical power underwater, the power plant comprising the turbo-generator assembly of claim 1 , the internal chamber of the turbo-generator assembly being in fluid communication with a fluid storage volume that is capable of holding fluid at a pressure below a hydrostatic pressure of the body of water surrounding the shell of the turbo-generator assembly. 10. The power plant of claim 9 , wherein the internal chamber of the turbo-generator assembly is positioned above the fluid storage volume. 11. The power plant of claim 9 , further comprising at least one pump that is in fluid communication with the fluid storage volume and is arranged to expel water from the fluid storage volume. 12. The power plant of claim 9 , wherein the fluid storage volume comprises the pipeline or the pipeline bundle. 13. The power plant of claim 12 , wherein the turbo-generator assembly is supported by the pipeline accessory module or by the bundle towhead module.