Patent Number: 050892177
Section: claims

1. A chemical decontamination clean-up system for use on-line in a nuclear reactor primary system comprising: a back-flushable filter;  means within the nuclear reactor primary system for pumping primary system fluids from the nuclear reactor primary system downstream to the back-flushable filter and thereafter through the decontamination system;  a plurality of demineralizer banks arranged in parallel, each demineralizer bank comprising one or more demineralizers arranged in parallel wherein primary system fluids are demineralized;  means for selectively directing the pumped primary system fluids from the back-flushable filter to a particular demineralizer bank; and  means for returning primary system fluids from the demineralizer banks to the primary system.  one or more post-filters arranged in parallel capable of removing smaller particulates from the primary system fluids than the back-flushable filter is capable of removing; and  means for selectively directing the pumped primary system fluids from the back-flushable filter through one or more of the post-filters positioned upstream of the means for selectively directing the pumped primary system fluids to a particular demineralizer bank.  one or more resin fines filters arranged in parallel; and  means for selectively directing the pumped primary system fluids from the demineralizers through one or more of the resin fines filters positioned upstream of the means for returning primary system fluids from the demineralizer banks to the primary system.  a back-flushable filter that uses nitrogen gas for back-flushing;  a filtrate collection tank connected to the back-flushable filter to receive back-flushed particulates;  means within the nuclear reactor primary system for pumping primary system fluids from the nuclear reactor primary system to the back-flushable filter and thereafter through the decontamination system;  a plurality of post-filters arranged in parallel capable of removing smaller particulates from the primary system fluids than the back-flushable filter is capable of removing;  means for selectively directing the pumped primary system fluids from the back-flushable filter through one or more of the post-filters;  a plurality of demineralizer banks arranged in parallel, each demineralizer bank comprising a plurality of demineralizers arranged in parallel wherein primary system fluids are demineralized;  means for selectively directing the pumped primary system fluids from the post-filters to a particular demineralizer bank;  a plurality of resin fines filters arranged in parallel;  means for selectively directing the pumped primary system fluids from the demineralizers through one or more of the resin fines filters; and  means for returning the primary system fluids from the resin fines filters to the primary system.  a back-flushable filter;  means within the nuclear reactor primary system for pumping primary system fluids from the nuclear reactor primary system downstream to the back-flushable filter and thereafter through the decontamination system;  a plurality of demineralizer banks arranged in parallel, each demineralizer bank comprising one or more demineralizers arranged in parallel wherein primary system fluids are demineralized;  means for selectively directing the pumped primary system fluids from the back-flushable filter to a particular demineralizer bank; and  means for returning primary fluids from the demineralizer banks to the primary system.  one or more post-filters arranged in parallel capable of removing smaller particulates from the primary system fluids than the back-flushable filter is capable of removing; and  means for selectively directing the pumped primary system fluids from the back-flushable filter through one or more of the post-filters positioned upstream of the means for selectively directing the pumped primary system fluids to a particular demineralizer bank.  one or more resin fines filters arranged in parallel; and  means for selectively directing the pumped primary system fluids from the demineralizers through one or more of the resin fines filters positioned upstream of the means for returning primary system fluids from the demineralizer banks to the primary system.  pumping primary system fluids containing suspended solids, dissolved solids, or both, to a back-flushable filter for removal of suspended solids;  selectively feeding the filtered primary system fluids to one of a plurality of banks of demineralizers arranged in parallel, each such bank of demineralizers comprising one or more demineralizers arranged in parallel;  demineralizing the primary system fluids in the selected bank of demineralizers; and  returning the filtered and demineralized primary system fluids to the nuclear reactor primary system. 2. The chemical decontamination clean-up system of claim 1 further comprising: 3. The chemical decontamination clean-up system of claim 1 wherein the back-flushable filter utilizes nitrogen gas for back-flushing. 4. The chemical decontamination clean-up system of claim 1 further comprising: 5. The chemical decontamination clean-up system of claim 1 further comprising a filtrate collection tank connected to the back-flushable filter to receive back-flushed particulates. 6. A chemical decontamination clean-up system for on-line use in a nuclear reactor primary system comprising: 7. A nuclear reactor having a primary system wherein the primary system has an on-line chemical decontamination clean-up sub-system comprising: 8. The nuclear reactor of claim 7 wherein the chemical decontamination clean-up sub-system further comprises: 9. The nuclear reactor of claim 7 wherein the back-flushable filter utilizes nitrogen gas for back-flushing. 10. The nuclear reactor of claim 7 wherein the chemical decontamination clean-up sub-system further comprises: 11. The nuclear reactor of claim 7 wherein the chemical decontamination clean-up sub-system further comprises a filtrate collection tank connected to the back-flushable filter to receive back-flushed particulates. 12. A method of removing suspended and dissolved solids for use in on-line chemical decontamination clean-up of nuclear reactor primary systems comprising the steps of: 13. The method of removing suspended and dissolved solids for use in chemical decontamination clean-up of nuclear reactor primary systems of claim 12 further comprising the step of directing the filtered primary system fluids from the back-flushable filter to one or more of a plurality of post-filters arranged in parallel for removal of smaller particulates than the back-flushable filter has removed prior to selectively feeding the filtered primary system fluids to one of the plurality of banks of demineralizers. 14. The method of removing suspended and dissolved solids for use in chemical decontamination clean-up of nuclear reactor primary systems of claim 12 further comprising the step of back-flushing the back-flushable filter periodically. 15. The method of removing suspended and dissolved solids for use in chemical decontamination clean-up of nuclear reactor primary systems of claim 14 wherein the step of back-flushing uses nitrogen gas. 16. The method of removing suspended and dissolved solids for use in chemical decontamination clean-up of nuclear reactor primary systems of claim 14 further comprising the step of collecting the back-flushed particulates in a filtrate collection tank connected to the back-flushable filter. 17. The method of removing suspended and dissolved solids for use in chemical decontamination clean-up of nuclear reactor primary systems of claim 12 further comprising the step of selectively directing the demineralized primary system fluids from the demineralizers to one or more resin fines filters arranged in parallel prior to returning the filtered and demineralized primary system fluids to the nuclear reactor primary system.