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Radioactivity treatment

Early worries about risk of cancer or leukaemia have proven unfounded in prolonged follow-up studies. However radioactive treatment is contraindicated in pregnant woman or nursing mothers. Other risks for the fetus are abortion, intrauterine death, congenital malformation and congenital hypothyroidism (if administered after 12 weeks gestation). It is customary to avoid pregnancy for the first... [Pg.761]

Although gaseous and liquid wastes originating from the operation of nuclear facilities and radioactivity treatment facilities etc. are allowed to be released in... [Pg.419]

Many plants have introduced shutdown safety as a special topic for the pre-outage training of staff. This training should also cover risk during the outage, radiation protection, fire protection, industrial safety emergency planning, radioactive treatment and decontamination. [Pg.28]

Other compounds which may be found in crude oil are metals such as vanadium, nickel, copper, zinc and iron, but these are usually of little consequence. Vanadium, if present, is often distilled from the feed stock of catalytic cracking processes, since it may spoil catalysis. The treatment of emulsion sludges by bio-treatment may lead to the concentration of metals and radioactive material, causing subsequent disposal problems. [Pg.94]

The method is based on the international standard ISO 4053/IV. A small amount of the radioactive tracer is injected instantaneously into the flare gas flow through e.g. a valve, representing the only physical interference with the process. Radiation detectors are mounted outside the pipe and the variation of tracer concentration with time is recorded as the tracer moves with the gas stream and passes by the detectors. A control, supply and data registration unit including PC is used for on site data treatment... [Pg.1054]

Radioactive Gemstones. Zircon can contain radioactive elements, but the amount in jewelry-grade material is insignificant. Some of the treatments of Table 3 may leave irradiated material radioactive. Such gemstones have been released on rare occasions without the required cooling-off period (10). [Pg.223]

Waste Treatment. Microwave energy has been studied for the desulfurization of coal (qv) and treatment of wastes (190). Developments in microwave incinerators for medical and radioactive wastes have occurred (191,192). Even a consumer unit for consumption of sohd household waste has been proposed (193). Economic factors remain a key barrier in these developments. [Pg.346]

Water as coolant in a nuclear reactor is rendered radioactive by neutron irradiation of corrosion products of materials used in reactor constmction. Key nucHdes and the half-Hves in addition to cobalt-60 are nickel-63 [13981 -37-8] (100 yr), niobium-94 [14681-63-1] (2.4 x 10 yr), and nickel-59 [14336-70-0] (7.6 x lO" yr). Occasionally small leaks in fuel rods allow fission products to enter the cooling water. Cleanup of the water results in LLW. Another source of waste is the residue from appHcations of radionucHdes in medical diagnosis, treatment, research, and industry. Many of these radionucHdes are produced in nuclear reactors, especially in Canada. [Pg.228]

Several modes of waste management are available. The simplest is to dilute and disperse. This practice is adequate for the release of small amounts of radioactive material to the atmosphere or to a large body of water. Noble gases and slightly contaminated water from reactor operation are eligible for such treatment. A second technique is to hold the material for decay. This is appHcable to radionucHdes of short half-life such as the medical isotope technetium-9 9m = 6 h), the concentration of which becomes negligible in a week s holding period. The third and most common approach to waste... [Pg.228]

Low Level Waste Treatment. Methods of treatment for radioactive wastes produced in a nuclear power plant include (/) evaporation (qv) of cooling water to yield radioactive sludges, (2) filtration (qv) using ion-exchange (qv) resins, (J) incineration with the release of combustion gases through filters while retaining the radioactively contaminated ashes (see Incinerators), (4) compaction by presses, and (5) solidification in cement (qv) or asphalt (qv) within metal containers. [Pg.228]

Spent Fuel Treatment. Spent fuel assembhes from nuclear power reactors are highly radioactive because they contain fission products. Relatively few options are available for the treatment of spent fuel. The tubes and the fuel matrix provide considerable containment against attack and release of nucHdes. To minimi2e the volume of spent fuel that must be shipped or disposed of, consoHdation of rods in assembhes into compact bundles of fuel rods has been successfully tested. Alternatively, intact assembhes can be encased in metal containers. [Pg.229]

Radioisotopes have become very important ia the practice of modem medicine, for both diagnosis and treatment. Some diagnoses are done by injecting a radionucHde ia a biochemical form such that it goes to a particular organ, and the measured radiation then allows the functional level of that organ to be determined. A common treatment is to expose a portion of the body, for example a tumor, to radiation from a radioisotope with the source either internal or external to the body. Another usage iavolves radioactively labeled antibodies (see Immunoassay). [Pg.442]

The selective uptake of iodide ion by the thyroid gland is the basis of radioiodine treatment in hyperthyroidism, mainly with although various other radioactive isotopes ate also used (40,41). With a half-life of eight days, the decay of this isotope produces high energy P-particles which cause selective destmction within a 2 mm sphere of their origin. The y-rays also emitted are not absorbed by the thyroid tissue and are employed for external scanning. [Pg.52]

The properties of hydrated titanium dioxide as an ion-exchange (qv) medium have been widely studied (51—55). Separations include those of alkaH and alkaline-earth metals, zinc, copper, cobalt, cesium, strontium, and barium. The use of hydrated titanium dioxide to separate uranium from seawater and also for the treatment of radioactive wastes from nuclear-reactor installations has been proposed (56). [Pg.120]

Plasma levels of 3—5 p.g/mL are obtained two hours after adraiinistration of 200 mg ketoconazole. No accumulation in the bloodstream was noted after a 30-wk treatment with this dose. The half-life is approximately eight hours. When ketoconazole is taken with meals, higher plasma levels are obtained. Distribution studies using radioactive ketoconazole in rats show radioactivity mainly in the Hver and the connective tissue. Radioactivity is also present in the subcutaneous tissue and the sebaceous glands. After one dose of 200 mg in humans, ketoconazole is found in urine, saUva, sebum, and cenimen. Like miconazole, the mode of action is based on inhibition of the cytochrome P-450 dependent biosynthesis of ergosterol. This results in disturbed membrane permeabiUty and membrane-bound enzymes (8,10,23,25). [Pg.256]

The existence of bismuthine was first demonstrated by using a radioactive tracer, Bi (8). Acid treatment of a magnesium plate coated with Bi resulted in the hberation of a volatile radioactive compound. In subsequent experiments, magnesium bismuthide [12048-46-3], Mg Bi, was treated with acid the yield, however, was only one part of bismuthine for every 20,000 parts of bismuth dissolved. Attempts to prepare bismuthine by reduction of bismuth trichloride with a borohydride have not been particularly successful. Experimental quantities ate best prepared by disproportionation of either methylbismuthine [66172-95-0], CH Bi, or dimethylbismuthine [14381-45-4], C2H. Bi (7) ... [Pg.127]

Medical Uses. A significant usage of chelation is in the reduction of metal ion concentrations to such a level that the properties may be considered to be negligible, as in the treatment of lead poisoning. However, the nuclear properties of metals may retain then full effect under these conditions, eg, in nuclear magnetic resonance or radiation imaging and in localizing radioactivity. [Pg.393]

Correlation of all aspects of the test method with the practical system of interest is always important. The test used for dairy cleaning is an excellent example (116). Milk is used to tag the soil with radioactive Ca by an exchange with radioactive CaCl2. This treatment is apphed to stainless steel planchets by suspending the planchets in milk under actual pasteurizing conditions. [Pg.537]

First of all, in the general part, the supply of herbal drugs and herbal mixtures, the indications and possible treatments, are dealt with, as well as explaining herbal preparations, how to make the lea, storage, and authentication. Short sections are devoted to the Standard Licences and the contamination of drugs (microbiological, heavy metal, fumigation, radioactive substances). [Pg.11]

Radioactive isotopes of the halogens have found use in the study of isotope-exchange reactions and the mechanisms of various other reactions.The properties of some of the most used isotopes are in Table 17.5. Many of these isotopes are available commercially. A fuller treatment with detailed references... [Pg.801]

The price per m of the other noble gases is considerably higher (Ne 70, Kr 350 and Xe 3500, and this tends to restrict their usage to specialist applications only. Radon has been used in the treatment of cancer and as a radioactive source in testing metal castings but, because of its short half-life (3.824 days) it has been superseded by more convenient materials. Such small quantities as are required are obtained as a decay product of Ra (1 g of which yields 0.64 cm in 30 days). [Pg.890]

The extensive industrial and commercial utilization of water-soluble polymers (polyelectrolytes) in water treatment has been developed based on the charge along the polymer chains and the resultant water solubility. The use of water-soluble polymers in water treatment has been investigated by several authors [5-26] in the recovery of metals radioactive isotopes, heavy metals, and harmful inorganic residues. This allows recycling water in the industrial processes and so greatly saves... [Pg.119]

A similar substitution reaction occurs with other strong bases. Treatment of bromobenzene with potassium amide (KNH2) in liquid Nhh solvent, for instance, gives aniline. Curiously, though, when bromobenzene labeled with radioactive 14C at the Cl position is used, the substitution product has equal amounts of the label at both Cl and C2, implying the presence of a symmetrical reaction intermediate in which Cl and C2 are equivalent. [Pg.575]


See other pages where Radioactivity treatment is mentioned: [Pg.975]    [Pg.1067]    [Pg.1308]    [Pg.415]    [Pg.47]    [Pg.975]    [Pg.1067]    [Pg.1308]    [Pg.415]    [Pg.47]    [Pg.416]    [Pg.381]    [Pg.218]    [Pg.367]    [Pg.242]    [Pg.243]    [Pg.234]    [Pg.353]    [Pg.473]    [Pg.485]    [Pg.153]    [Pg.153]    [Pg.281]    [Pg.13]    [Pg.393]    [Pg.392]    [Pg.205]    [Pg.180]    [Pg.181]    [Pg.387]    [Pg.201]    [Pg.1115]    [Pg.683]   
See also in sourсe #XX -- [ Pg.81 ]




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