Low-level Radioactive Wastes: Their Handling, Treatment, and Disposal |
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... addition to pointing out throughout the text the relative importance of such low - level wastes , the author emphasizes the relatively greater general nature of the problem stemming from their direct discharge to the environment which ...
... addition to pointing out throughout the text the relative importance of such low - level wastes , the author emphasizes the relatively greater general nature of the problem stemming from their direct discharge to the environment which ...
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... additions to background radiation exposure . The record , by and large , in other uses of radiation - productive equipment and materials still lags behind that of the more highly active materials in the AEC controlled operations . The ...
... additions to background radiation exposure . The record , by and large , in other uses of radiation - productive equipment and materials still lags behind that of the more highly active materials in the AEC controlled operations . The ...
Page 4
... Addition of Tannin ...... . 240 10-1.4 Sulfide - and - iron Treatment .. 241 10-1.5 Lime - Soda Ash Treatment .. 241 10-2 Removal of Specific Radionuclides__ 248 10-2.1 Strontium Removal_ _ 248 10-2.2 Cesium Removal__ 251 10-2.3 ...
... Addition of Tannin ...... . 240 10-1.4 Sulfide - and - iron Treatment .. 241 10-1.5 Lime - Soda Ash Treatment .. 241 10-2 Removal of Specific Radionuclides__ 248 10-2.1 Strontium Removal_ _ 248 10-2.2 Cesium Removal__ 251 10-2.3 ...
Page 17
... addition , up to 1958 a total of $ 35 million had been invested in the treatment and handling of radioactive - waste gases . The total quantities of solid waste produced and the cost of handling and disposal have not been presented in ...
... addition , up to 1958 a total of $ 35 million had been invested in the treatment and handling of radioactive - waste gases . The total quantities of solid waste produced and the cost of handling and disposal have not been presented in ...
Page 29
... of reactor , and neutron flux . Expected maximum steady state activity levels for nonvolatile fission products in the Shipping port PWR wastes have been published.14 In addition to the nuclides shown in Table 2.6 , value./
... of reactor , and neutron flux . Expected maximum steady state activity levels for nonvolatile fission products in the Shipping port PWR wastes have been published.14 In addition to the nuclides shown in Table 2.6 , value./
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Common terms and phrases
86th Congress acid activity levels adsorbed adsorption amounts Argonne National Laboratory atmospheric Atomic Energy beta Bone C. P. STRAUB calcium cesium chemical coagulation collection containing coolant curies decay decontamination dilution discharge Disposal of Radioactive Division of Reactor dose effect effluent environment evaluated exchange exposure factors FeCl3 filter filtration fission products flow gases groundwater Hanford hazard insoluble iodine ion-exchange ions liquid wastes liter low-level Lung maximum permissible measured mg/liter monitoring nuclear nuclides Oak Ridge National operations ORNL particles phosphate plankton plant plutonium precipitation Public Health Service Radiation Protection radio radioactive contaminants radioactive materials Radioactive Wastes radionuclides release removal of radioactive resin Ridge National Laboratory River ruthenium samples Sanitary Engineering sewage sludge soil solid wastes soluble specific radionuclides stream strontium surface Table tank thorium tion treatment U.S. Government Printing United uptake uranium USAEC Report volume wastes containing
Popular passages
Page 358 - byproduct material' means (1) any radioactive material (except special nuclear material) yielded in or made radioactive by exposure to the radiation incident to the process of producing or utilizing special nuclear material...
Page 369 - ... precautions necessary to prevent the exposure of any individual to radiation or radioactive materials in excess of the limits established in the regulations in this part and; (2) such area or room is subject to the licensee's control.
Page 360 - Source material" means (i) uranium or thorium, or any combination thereof, in any physical or chemical form; or (ii) ores which contain by weight one-twentieth of one percent (0.05%) or more of (a) uranium, (6) thorium or (c) any combination thereof. Source material does not include special nuclear material. (16) "Special nuclear material...
Page 382 - Connecticut Delaware District of Columbia Maine Maryland Massachusetts New Hampshire New Jersey New York Pennsylvania Rhode Island Vermont *Virginia Southeast Alabama Arkansas Florida Georgia...
Page 360 - Commission, pursuant to the provisions of section 2071 of this title, determines to be special nuclear material, but does not include source material ; or (2) any material artificially enriched by any of the foregoing, but does not include source material.
Page 342 - The unit of exposure dose of X- or gamma radiation is the roentgen (r). One roentgen is an exposure dose of X- or gamma radiation such that the associated corpuscular emission per 0.001293 g of air produces, in air, ions carrying 1 electrostatic unit of quantity of electricity of either sign.
Page 361 - R due to X- or gamma radiation; (2) A dose of 1 rad due to X-, gamma, or beta radiation ; (3) A dose of 0.1 rad due to neutrons or high energy protons...
Page 340 - Absorbed Dose -- The energy imparted to matter by ionizing radiation per unit mass of irradiated material at the place of interest. The unit of absorbed dose is the rad. One rad equals 100 ergs per gram.
Page 373 - Violations. An injunction or other court order may be obtained prohibiting any violation of any provision of the act or any regulation or order issued thereunder. Any person who willfully violates any provision of the act or any regulation or order issued thereunder...
Page 360 - Dose," as used in this part, is the quantity of radiation absorbed, per unit of mass, by the body or by any portion of the body. When the regulations in this part specify a dose during a period of time, the dose means the total quantity of radiation absorbed, per unit of mass, by the body or by any portion of the body during such period of time. Several different units of dose are in current use. Definitions of units as used in this part are set forth in paragraphs (b) and (c) of this section.