Hazardous or toxic waste destruction or containment – Destruction or containment of radioactive waste – Treating radioactive liquid
Reexamination Certificate
2001-02-05
2003-02-18
Nguyen, Nam (Department: 1741)
Hazardous or toxic waste destruction or containment
Destruction or containment of radioactive waste
Treating radioactive liquid
C588S253000, C588S253000
Reexamination Certificate
active
06521809
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to the treatment of organic materials, especially to bring about decomposition and destruction of the same.
In many fields waste organic materials present problems in and potential hazards to the environment and efficient processes for their destruction are being sought. The present invention is particularly concerned -with the treatment of waste streams containing radioactive or toxic materials in the presence of chelating agents/sequestering agents/detergents, bringing about the removal of the metal species from solution and allowing the discharge of an essentially benign effluent. Conventional treatments of such solutions are unsuccessful for various reasons, for instance, because of the propensity of the chelating agent to carry the reagent through ion exchange processes or the undesirable downstream consequences of adding known precipitation agents (eg carbamates) to the solution.
Although reference will be made below to the use of the present invention in nuclear plant applications, the invention is also applicable to other types of processes including the treatment of waste streams containing toxic heavy metals.
BACKGROUND OF THE INVENTION
Photochemical advanced oxidation processes for the treatment of aqueous solutions containing non-biodegradable compounds rely mainly on the production of a potent oxidising agent, in particular, the hydroxyl radical. One possible source of hydroxyl radicals is Fenton's reagent, a mixture of hydrogen peroxide and ferrous ion. It has been shown recently (Hutson, G. V.,
Wat. Sci. Tech
. Vol 35, No. 4, pp 303-309, 1997) that degradation rates may be significantly enhanced by UV/visible irradiation.
Processes for the decontamination of nuclear plant materials typically involve the use of detergent and other solutions to facilitate surface cleaning. These solutions contain organic relating agents, the function of which is to hold metallic species in solution. Once used, the resultant solution will contain, inter alia, organic complexing agents and radioactive metal cations. Desirably, the metal ions are then separated from the solution and the solution is recycled or disposed of. The complexing agent is preferably destroyed as part of this post-cleaning treatment and the resultant aqueous solution may then be sent to an effluent treatment plant or an ion exchange plant. Undestroyed chelating agents prevent successful treatment of such spent liquors in conventional effluent treatment plants and indeed may be undesirable in their own right as components of discharged effluents.
STATEMENTS OF INVENTION
Although use of Fenton's/UV is effective in destroying the organic complexing agent, the resultant aqueous solution then contains a substantial amount of iron ions. This presents a significant problem in the subsequent treatment of the solution. For instance, in subsequent ion exchange treatment, the iron ions will block the ion exchange resin and render its operation ineffective in removing the target metal ions from the solution. Similar problems will be encountered with the use of other reagents containing metal ions, examples being reagents which include a metal capable of being in more than one oxidation state during its use. Examples of such reagents are those containing copper or chromium ions. Another problem ion is the aluminium ion, because it is preferentially adsorbed by ion exchange materials.
The present invention is concerned with a process for the treatment of a solution used for the decontamination of a radioactively contaminated surface, the solution containing radioactive metal ions and an organic complexing agent, the process comprising treating the solution with a reagent suitable for the destruction of the complexing agent and containing a metal capable of existing in more than one oxidation state, and raising the pH of the resultant solution to a level at which the metal of the reagent precipitates or flocs out of the solution.
Accordingly, the present invention envisages that, after the organic species has been destroyed, addition of alkaline material, especially a solution or powder, will raise the pH such that the metal ions of the reagent will form a floc which, as it forms and settles, removes the active species from the solution. In this way, the metal ions of the reagent, which previously had been seen as an obstacle to the use of such reagents, are now put to good purpose. Instead of preventing the effectiveness of the subsequent operation for the separation of the radioactive heavy metal ions, these reagent metal ions are themselves used to carry out the separation.
DETAILED DESCRIPTION OF THE INVENTION
The reagent used to destroy the organic complexing agent may be, for instance, based on a peroxide such as hydrogen peroxide. As an alternative to a peroxide, a perborate such as sodium perborate may be used. Preferably, the reagent is capable of providing active oxygen, for instance, in the form of a hydroxyl radical. Preferably, the reagent also includes a metal ion as a catalyst and, in particular, one capable of assuming more than one oxidation state.
A particular reagent which may be used in a process of the present invention is Fenton's reagent. This reagent is a mixture of hydrogen peroxide and ferrous ions. Under acidic conditions (in practice pH 1-5), this combination is a powerful oxidant of organic compounds, the hydroxyl radical being generally invoked as the primary reactive species which is generated. It is preferred in a process of the present invention that the reagent, preferably Fenton's reagent, is used together with UV or visible radiation. Such radiation has been found to strongly accelerate the action of Fenton's reagent, improving the degradation rates of organic complexing agents. This light-enhancement has been explained by ferric-sensitised reactions, mainly the photolysis of hydroxyl complexes of ferric yielding hydroxyl radicals and regenerating ferrous. Also believed to take place are photochemical reactions of complexes formed between ferric and the organic substrate or its intermediates of degradation, especially organic acids.
The metal ion having two or more oxidation states acts as a catalyst in the degradation of the organic complexing agents by the hydrogen peroxide or other reactant. As indicated above, the metal ion system may be that of a single metal, such as iron. However, the reagent may also include one or more other catalysts, for instance, other transition metals.
The degradation of the complexing agent made be carried out at any suitable temperature for the reagent which is used. In the case of Fenton's reagent, used with UV radiation, the rate of reaction is such that the degradation may be carried out at ambient temperatures.
In the case of the use of Fenton's reagent/UV, the optimum values of iron, hydrogen peroxide and UV radiation depend on the rate of reaction between hydroxyl radicals and the organic complexing agent and also on the optical density of the reaction solution. By way of example, a solution with an absorbence of approximately 2 for the depths of the reaction volume (depth of reaction solution from UV source to the outer boundary of the reaction volume) gives an absorption of 99% of the incident UV radiation. Significantly higher absorbencies will lead to areas of the reaction volume, those furthest from the source of UV, receiving no UV radiation, although with efficient stirring this can be accommodated. Absorbencies significantly less than two should desirably be avoided as these will lead to inefficient utilisation of the UV radiation as a proportion will pass through the reaction solution without being usefully absorbed.
The amount of iron necessary in the process according to the present invention depends on the amount of organic material to be destroyed and the concentration of hydrogen peroxide, and upon the rate of reaction between the organic material and the hydroxyl radicals. The faster this reaction is then the more iron which can be present in the s
Easthope Alistair McLeod
Milner Timothy Nicholas
Rance Peter Jonathan Watson
Smith Alexander Hamilton
British Nuclear Fuels plc
Myers Bigel & Sibley & Sajovec
Nguyen Nam
Parsons Thomas H.
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