Patent Number: 055457967
Section: claims

1. An article of manufacture, consisting essentially of: (1) a waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, and  (2) concrete binder forming a matrix for the waste material, to provide the article, where the article is itself useful to isolate additional material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, where the article is made of different sized particles to provide high interior void volume filling, and the waste material used to make the article is fixed in the concrete matrix so that leaching of the waste material used to make the article is controlled.  (1) a waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, and  (2) concrete binder forming a matrix for the waste material, to provide the article, where the article is a transportable container the waste is in small discrete form, and the container is made of different sized particles to provide high interior void volume filling.  (A) providing a contaminated material selected from at least one of:  (B) mixing thoroughly:  (C) forming the composition into a unitary, solid containment system which contains contaminated material, and binder acting as a matrix for the contaminated material, where the system contains different sized particles to provide high interior void volume filling; and  (D) placing the containment system in direct or indirect contact with, radioactive, hazardous, or mixed waste.  (A) providing quantities of radioactive material selected from the group consisting of radioactive metal, radioactive concrete, radioactive sand, radioactive gravel, radioactive plastic, radioactive liquid, and mixtures thereof,  (B) processing the radioactive material without dilution with any more than about 15 weight % of non-radioactive material, to provide at least one of:  (C) mixing  (D) forming the composition into a unitary solid article, where the article contains difference sized particles to provide high interior void volume filling.  (A) providing radioactive material selected from the group consisting of radioactive metal, radioactive concrete, radioactive sand, radioactive gravel, radioactive plastic, and mixtures thereof; and then  (B) processing the radioactive material without dilution with any more than about 15 weight % of non-radioactive material, to provide at least one of  (C) mixing  (D) forming the composition into a containment system, where the containment system contains different sized particles to provide high interior void volume; and  (E) curing the system into a unitary solid mass.  (1) a waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, and  (2) concrete binder forming a matrix for the waste material, where from 2 parts to 570 parts of waste material is used per 100 parts of concrete matrix, the waste material is fixed in the concrete matrix so that leaching of the waste material is controlled, the article is made of different sized particles to provide an article with high interior void volume filling, the article has a density over about 90% of theoretical density, and low permeability to water, and the waste material is in nonagglomerate form and uniformly and homogeneously dispersed, where the article is itself useful for a variety of functions in an area of waste environment.  (1) a waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, and  (2) concrete binder forming a matrix for the waste material, to provide the article, where the article itself is useful to isolate additional material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, and any radioactive waste used in the concrete matrix of the article itself can have cobalt-60 equivalents over 130 Bq/g, and is not diluted with any more than 15 weight % of nonradioactive material.  (1) a waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, and  (2) concrete binder forming a matrix for the waste material, where from 2 parts to 570 parts of waste material is used per 100 parts of concrete matrix, where the waste material is fixed in the concrete matrix so that leaching of the waste material is controlled, the article contains different sized particles to provide high interior void volume filling, and low permeability to water, the waste material is in non-agglomerate form and uniformly and homogeneously dispersed, and the article is itself useful for a variety of functions in an area of waste environment. 2. An article of manufacture, consisting essentially of: 3. A containment system comprising a concrete structure, the structure containing, as an actual part of its walls, radioactive metal, in the form of discrete fibers constituting from 2 weight % to 55 weight % of the structure, where the structure contains different sized particles to provide high interior void volume filling, and where the concrete structure itself is useful to isolate waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof. 4. The containment system of claim 3, where the structure is in the form of a transportable container, where a plastic sheet material covers at least one of the inside of the container and the outside of the container, where said plastic sheet material is closely attached to the container, the fibers have lengths from 0.5 cm to about 20 cm, and the container is placed in direct or indirect contact with contaminated material. 5. An article of manufacture, comprising a structure containing a series of different sized particles to provide high interior void volume filling, where at least one fine particulate selected from the group consisting of silica fume and flyash particles and mixtures thereof is close packed between larger particulate comprising cement, such that the structure has a high density, and where the structure also contains additives distributed therethrough, selected from the group consisting of uniformly dispersed bars, fibers, generally spherical particles and amorphous particles, and mixtures thereof, where at least one of the additives is radioactive waste or hazardous waste. 6. The article of claim 5, where the structure is a containment system, where the larger particulate may also include filler, and aggregate particles and mixtures thereof, the bars have lengths from about 25 cm to about 150 cm and diameters of from about 0.10 cm to about 3 cm, the fibers have lengths from about 0.5 cm to about 20 cm and a length:width aspect ratio of between 200:1 and 20:1, the generally spherical particles have diameters from about 0.001 mm to about 30 mm, and the amorphous particles have a thickness of from 0.01 mm to 30 mm. 7. The article of claim 5, where the additive is radioactive metal fibers. 8. The article of claim 5, where the additive is generally spherical radioactive particles. 9. The article of claim 5, in container form, where the additives are selected from at least one of metal bars, radioactive metal fibers, and generally spherical radioactive concrete particles, and where a closely attached plastic sheet material covers at least one of the inside of the container or the outside of the container. 10. A method of mixing radioactive or hazardous waste into a binder matrix to form a containment system comprising the steps of: 11. The method of claim 10, where the binder material is a concrete mixture of cement, sand, aggregate and water, the contaminated material is selected from at least one of radioactive bars, radioactive fibers, generally spherical radioactive particles, amorphous radioactive particles and stabilized radioactive liquid, the cured containment system has a density over about 90% of theoretical density, and low permeability to water, where 2 parts to 570 parts of contaminated material can be used per 100 parts of binder material and any radioactive material used in the binder matrix itself is in non-agglomerate form and uniformly and homogeneously dispersed, and can have cobalt-60 equivalents over 130 Bq/g, and where the contaminated material is fixed in the binder matrix so that leaching of the contaminated material is controlled. 12. A method of making an article utilizing radioactive, hazardous, or mixed waste as a component of the structure, comprising the steps: 13. The method of claim 12, where about 1 to about 25 parts by weight of hazardous waste material selected from at least one of toxic chemicals, plastics, and soil is mixed in step (C) and the binder is a concrete mixture. 14. The method of claim 12, where no hazardous waste material is added in step (C). 15. The method of claim 12, where the system is cured in step (D) into a containment system which contains at least radioactive material, and uncontaminated binder acting as a matrix for the radioactive material. 16. A method of making a containment system utilizing radioactive waste as a component of the system, comprising the steps: 17. The method of claim 16, where the radioactive material is radioactive metal which is processed into fibers in step (D) the composition is formed into a container, and as a last step the system is cured into a unitary solid mass. 18. The method of claim 16, where the radioactive material is radioactive concrete which is processed into generally spherical particles and in step (D) the composition is formed into a container. 19. The method of claim 16, where the concrete mixture has a consistency of from 3 to 7 cm slump and the plasticizer added increases the consistency to from 12 to 17 cm slump. 20. The method of claim 16, where the cured containment system has a density over about 90% of theoretical density, and low permeability to water, where 2 parts to 570 parts of processed radioactive material can be used per 100 parts of cement material and any radioactive material used is in non-agglomerate form and uniformly and homogeneously dispersed, and can have cobalt-60 equivalents over 130 Bq/g, and where the radioactive material is fixed in the binder matrix so that leaching of the radioactive material is controlled. 21. A container made by the method of claim 16. 22. A container comprising concrete and from 2 weight % to 55 weight % contaminated metal fibers having lengths from about 0.5 cm to about 20 cm and a length:width aspect ratio of between 200:1 and 20:1, where the container contains different sized particles to provide high interior void volume filling and a density over about 90% of theoretical density. 23. The container of claim 22, where a closely attached plastic sheet material covers at least one of the inside of the container and the outside of the container. 24. The container of claim 22, being transported with waste contained therein to a storage location and stored. 25. The container of claim 22 where the metal fibers constitute from about 2 weight % to about 30 weight % of the container. 26. An article of manufacture, consisting essentially of: 27. An article of manufacture, consisting essentially of: 28. An article of manufacture, consisting essentially of: 29. The containment system of claim 3, where the structure has a density over about 90% of theoretical density and low permeability to water, the metal is in non-agglomerate form and uniformly and homogeneously dispersed, and is fixed in the concrete matrix so that leaching of the radioactive metal is controlled, and any radioactive metal used in the structure walls can have cobalt-60 equivalents over 130 Bq/g, and is not diluted with any more than 15 weight % of non-radioactive material. 30. The article of claim 5, where the structure itself is useful to isolate waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, where any radioactive waste additive used in the structure itself can have cobalt-60 equivalents over 130 Bq/g, and is not diluted with any more than 15 weight % of non-radioactive material, and where the structure has a density over about 90% of theoretical density, and low permeability to water, and where any radioactive or hazardous waste is in non-agglomerate form and uniformly and homogeneously dispersed, and is fixed in the structure so that leaching of the radioactive or hazardous waste is controlled. 31. The container of claim 22, where the container itself is useful to isolate waste material selected from the group consisting of radioactive waste, hazardous waste, and mixtures thereof, where the contaminated metal fibers are in non-agglomerate form and uniformly and homogeneously dispersed, where any contaminated metal fibers used in the container itself can have cobalt-60 equivalents over 130 Bq/g, and are not diluted with any more than 15 weight % of non-radioactive material, and where the container has low permeability to water. 32. The method of claim 12, where the cured article has a density over about 90% of theoretical density, and low permeability to water, and any radioactive material used is in non-agglomerate form and uniformly and homogeneously dispersed and can have cobalt-60 equivalents over 130 Bq/g, and where the radioactive and hazardous waste material is fixed in the binder so that leaching of such material is controlled.