Patent Number: 
Section: claims

1. A pressure-equalizing container for storing radioactive waste in sediments on the ocean floor at a subduction fault, said container comprising:a chamber body having a generally cylindrical interior and a convex exterior;a piston plug movable within the cylindrical interior;a collar which captures the piston-plug and is affixed to one end of the chamber body;an end cap which is attached to the other end of the chamber body to seal in the radioactive waste;a soft metal liner coating the generally cylindrical interior of the chamber body, said liner coating becoming a traveling sealant as external pressures increase; andone or more all-metal O-rings to provide a seal between the chamber body and the end cap. 2. The pressure-equalizing container of claim 1, wherein said chamber body has a convex external surface. 3. The pressure-equalizing container of claim 1, wherein said soft metal liner is fabricated primarily of lead. 4. A pressure-equalizing container for storing radioactive waste in sediments on the ocean floor at a subduction fault, said container comprising:a chamber body having a cylindrical interior coated with a layer of lead, and sealed at a lower end thereof;a piston plug having a solid cylindrical piston having a first diameter, and a solid cylindrical plug having a second diameter that is less than said first diameter, said cylindrical piston and said cylindrical plug being both unitary and coaxial, said piston being installable within an upper portion of said cylindrical interior after said cylindrical interior is partially filled with radioactive waste, said piston having a curved, sharpened circular lower edge designed to scrape lead from the cylindrical interior as the piston plug moves further into said cylindrical inner chamber of said chamber body under external pressure;a collar having a cylindrical aperture that is less than said first diameter, but greater than said second diameter, said collar being securable to an upper end of the chamber body following installation of the piston plug therein, said collar thereby acting to capture the piston of said piston-plug so that it cannot be removed from said cylindrical inner chamber. 5. The pressure-equalizing container of claim 4, which further comprises a coating of copper covering the layer of lead. 6. The pressure-equalizing container of claim 4, wherein the lower end of said cylindrical interior is sealed with an end cap that is bolted to a lower end of said chamber body. 7. The pressure-equalizing container of claim 6, wherein said end cap is pointed to facilitate penetration into sediments on the ocean floor at the subduction fault. 8. The pressure-equalizing container of claim 6, which further comprises fins attached to an upper portion of said container, said fins acting to stabilize descent of said container to sediments on the ocean floor at the subduction fault. 9. The pressure-equalizing container of claim 4, wherein an upper end of said plug is hemispherical. 10. The pressure-equalizing container of claim 4, wherein said piston, in combination with said lead layer, acts to seal the upper portion of said cylindrical interior. 11. The pressure-equalizing container of claim 4, wherein an upper portion of said cylindrical interior is conically beveled so as to faciliate initial entry of the piston into the cylindrical interior.