Patent Number: 043200281
Section: claims

1. In the method of long-term storage of radioactive waste products wherein said waste products are first made into a vitreous composition containing a suitable content of inert components as diluents and melted, the improvement comprising the steps of: forming said melted composition into fibers;  forming said fibers into a cable of selected length and having forward and rearward ends, the diameter of said fibers and the number of fibers being such that said cable is sufficiently flexible to be wound onto support means;  providing leader means at said forward end of said cable for feeding said cable to said support means and at said rearward end for retrieving said cable from said support means; and  lowering said cable to a region having sufficient shielding to protect the biosphere,  winding said cable onto said support means in said region and storing said cable on said support means, said method providing for retrieving said cable should said region become unsafe for storage of said cable and for further processing.  means for combining said radioactive waste products with inert components into a vitreous composition and melting said composition;  means for forming said molten composition into flexible fibers;  means for forming said fibers into a flexible cable having a forward end and a rearward end;  storage space deep in the earth for long-term storage of said cable;  a well leading from the surface of the earth to said storage space;  a well-head at the surface of the earth and over said well;  means in said storage space for winding said cable onto support means;  means for retrieval of said cable from said storage space; and  conduit means shielded against passage of radiation for transport of said cable therethrough from said forming means to said well-head. 2. The improvement as defined in claim 1, further comprising the steps of storing said fibers in a pool of water prior to fabrication into a cable, said storage in said pool being continued for a period long enough for the rate of heat evolution to subside to a selected value and to provide for inspection to ensure that said fibers are capable of performing satisfactorily. 3. The improvement as defined in claim 1, further comprising the step of temporarily storing said cable in a buffer storage area subsequent to fabrication of same and prior to lowering said cable to said region, said temporary storage serving for smoothing differences between the rates of fabrication of said cable and lowering same to said region. 4. The improvement as defined in claims 1, 2 or 3, further comprising the steps of retrieving said cable from said region after a period such that the quantity of a nuclide originally constituting a major source of the radiation from said cable has decreased substantially, remelting the fibers, readjusting the composition, and repeating the steps of claim 1. 5. The improvement as defined in claim 4, wherein said readjustment comprises harvesting of useful isotopes produced during storage. 6. The improvement as defined in claim 4, wherein said readjustment comprises at least partial removal of said inert components to increase the concentration of radioactive materials in said vitreous composition. 7. The improvement as defined in claim 4, wherein said readjustment comprises addition of further radioactive waste products to increase the concentration of radioactive material in said vitreous composition. 8. The improvement as defined in claim 1, further comprising the step of monitoring the integrity of said cable. 9. The improvement as defined in any of claim 1 or 8, further comprising the step of providing optical fibers in said cable arranged and constructed for transmitting optical signals both forwardly and rearwardly along said cable, thereby providing for monitoring of said cable by optical means. 10. The improvement as defined in claim 1, further comprising the step of monitoring the temperature of said cable. 11. The improvement as defined in claim 1, wherein said support means is constructed for cooling of same and said cable during storage thereon. 12. A cable of a vitreous composition containing radioactive waste products, said cable comprising fibers of diameter, number and arrangement such that said cable is sufficiently flexible to be wound on support means, said cable having a forward end and a rearward end, said forward end being provided with leader means for winding said cable onto said support means and said rearward end being provided with leader means for retrieving said cable from said support means. 13. The cable as defined in claim 12, wherein said forward and rearward end means are flexible leaders of fibers of non-radioactive vitreous composition. 14. The cable as defined in claim 12, wherein said cable further comprises means for monitoring the integrity thereof, including monitoring the continuity of said cable and the presence thereof. 15. The cable as defined in claim 14, wherein said monitoring means is optical. 16. The cable as defined in claim 14, wherein said monitoring means comprises fiber optics. 17. The cable as defined in claim 12, wherein said cable is in the form of a flat belt to improve heat removal therefrom and flexibility thereof. 18. The cable as defined in claim 12, wherein said cable further comprises means for monitoring the temperature thereof. 19. The cable as defined in claim 12, wherein said cable is color-coded for identification. 20. The cable as defined in claim 12, wherein said cable further contains radioactive markers for identification. 21. The cable as defined in claim 12, wherein said cable further comprises a coating for retaining fiber fragments which may be produced in manufacture or transport. 22. The cable as defined in claim 12, wherein the diameter of said fibers is about 100-200 micrometers. 23. A system for retrievable storage of a flexible cable of a vitreous composition containing radioactive waste products and for long term storage of said cable, comprising: 24. The system as defined in claim 23, further comprising a buffer region intermediate said cable forming means and said storage space for temporary residence of said cable therein, said buffer region being connected with said storage space and said cable forming means by said shielded conduit. 25. The system as defined in claim 23, further comprising remote and proximate monitoring means for determining the integrity and location of said cable. 26. The system as defined in claim 23, further comprising remote and proximate means for determining the temperature of said cable. 27. The system as defined in claim 23, further comprising means for attaching leaders to said cable at the forward and rearward ends thereof. 28. The system as defined in claim 23, wherein a major portion of said conduit means lies sufficiently far beneath the surface of the earth to be essentially shielded by said earth against a major quantity of radiation reaching said surface from cable in said conduit means, thereby eliminating the possibility of danger caused by above-surface transport of radioactive waste products.