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Cooling irradiation

For routine syntheses of labelled compounds, automated procedures have been developed which enable fast, safe, reproducible and reliable production. Automation has found broad application for the synthesis of radiopharmaceuticals. All steps must be as efficient as possible. For that purpose, target positioning and cooling, irradiation, removal of the target after irradiation, addition of chemicals, temperature and reaction time, purification of the product and dispensing are remotely controlled. Automation may be aided by computers and robotics may be apphed. [Pg.260]

In studying the polyenyl free radical decay at temperatures above room temperature by ultraviolet spectroscopy, the polyethylene was melted onto a quartz disc in vacuo, and, after cooling, irradiated, and subsequently annealed while firmly stuck to the quartz disc. This was... [Pg.525]

There are several reasons why it is useful to store or cool irradiated uranium fuel for several months prior to shipment for reprocessing ... [Pg.369]

EVST capabilities include (1) preheating new core assemblies, (2) storing new and irradiated core assemblies under sodium, (3) cooling irradiated core assemblies, (4) containing the argon cover gas,... [Pg.109]

Other forms of stimuli are also used with PAMs. Volume changes caused by heating/cooling, irradiation, solvent absorption, or exposure to other chemical environments e.g. pH changes) can initiate actuation in oriented... [Pg.454]

Geranyl acetate stirred 1 hr. at room temp, with diborane in tetrahydrofuran, the solvent removed in vacuo, methylene chloride and water added under Ng followed by a soln. of bromine in methylene chloride, ice-cooled, irradiated ca. 10 min. with a Phillips Argaphoto 500 w. lamp until the Br-color disappears. [Pg.209]

The substitution reaction can also be carried out under intramolecular conditions. Scheme 17 illustrates synthesis of the selenopenam. When a solution of the acid chloride in benzene was slowly added to a water-cooled, irradiated (250-W tungsten lamp) suspension of the sodium salt of N-hydroxypyri-dynethione in benzene, the selenopenam analog was isolated in 38% yields as a 7 3 mixture of diastere-... [Pg.1342]

When irradiation is complete, the sample is removed from the nuclear reactor, allowed to cool while any short-lived interferences that might be present decay to the background, and the rate of gamma-ray emission is measured. [Pg.645]

As noted earlier, gamma-ray emission is measured following a cooling period in which short-lived interferents are allowed to decay away. The initial activity therefore, is determined by extrapolating a curve of activity versus time back to f = 0 (Figure 13.15). Alternatively, if the samples and standards are irradiated simultaneously, and the activities are measured at the same time, then these activities may be used in place of Aq) and (Ao)s in the preceding equations. [Pg.645]

The concentration of Mn in steel can be determined by a neutron activation analysis using the method of external standards. A 1.000-g sample of an unknown steel sample and a 0.950-g sample of a standard steel known to contain 0.463% w/w Mn, are irradiated with neutrons in a nuclear reactor for 10 h. After a 40-min cooling period, the activities for gamma-ray emission were found to be 2542 cpm (counts per minute) for the unknown and 1984 cpm for the standard. What is the %w/w Mn in the unknown steel sample ... [Pg.646]

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]

The objective in packaging cool sterilized products is to maintain the product under aseptic conditions, to sterilize the container and its Hd, and to place the product into the container and seal it without contamination. Contamination of the head space between the product and closure is avoided by the use of superheated steam, maintaining a high internal pressure, spraying the container surface with a bactericide such as chlorine, irradiation with a bactericidal lamp, or filling the space with an inert sterile gas such as nitrogen. [Pg.363]

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]

A number of mechanisms have been proposed by which this common irradiated state is obtained. The most widely accepted is the thermal spike theory, which considers the heat generated in the wake of a fast particle passing through a soHd as being sufficient to cause severe stmctural disturbances which are then fro2en in by rapid cooling. Many property changes can be explained by this theory (146). [Pg.509]

Properties. Most of the alloys developed to date were intended for service as fuel cladding and other stmctural components in hquid-metal-cooled fast-breeder reactors. AHoy selection was based primarily on the following criteria corrosion resistance in Hquid metals, including lithium, sodium, and NaK, and a mixture of sodium and potassium strength ductihty, including fabricabihty and neutron considerations, including low absorption of fast neutrons as well as irradiation embrittlement and dimensional-variation effects. Alloys of greatest interest include V 80, Cr 15, Ti 5... [Pg.385]

The use of nylon-11 for powder coatings or dry coatings (qv) has been developed in response to a growing concern for the environment (44) (see Coating PROCESSES, powder technology). Electrostatic deposition allows thin films to be appHed to metal substrates. Once the powder is appHed, it must be melted and coalesced into a continuous plastic film. Eorced draft or irradiant ovens are used for fusion, and because no polymerization or cross-linkage are required for curing, coated objects can be processed quickly and air-cooled (45). [Pg.154]

Hahde complexes of Cu with nitrogen base ligands are known to exhibit another form of reversible spectral change known as fluorescence thermochromism. The example of Cu4l4(Py)4 from Table 1 is typical and shows red shifting ia the visible emission spectmm while the sample is both cooled and irradiated with a 364 nm ultraviolet source (7). [Pg.171]

Figure 1.8 Evaporation of a metal by laser beam irradiation to provide a source for the deposition of nanoparticles on a water-cooled substrate... Figure 1.8 Evaporation of a metal by laser beam irradiation to provide a source for the deposition of nanoparticles on a water-cooled substrate...
The lamp will not start if it is too cold or too hot. The practice of blowing nitrogen over the lamp to remove ozone is not recommended as this cools the lamp and decreases its output significantly, resulting in an unnecessarily long irradiation period. [Pg.120]

D. 3,3-Diahlarothietane 1,1-dioxide. Thietane 1,1-dioxide (5.0 g, 0.047 mol) Is placed In a 500-mL, three-necked, round-bottomed flask equipped with a reflux condenser, magnetic stirrer, and chlorine gas bubbler. Carbon tetrachloride (350 mL) Is added and the solution Is irradiated with a 250-watt sunlamp (Note 5) while chlorine Is bubbled through the stirred mixture for 1 hr (Note 9). Irradiation and chlorine addition are stopped and the reaction mixture is allowed to cool to room temperature. The product Is collected by filtration as a white solid (4.0-4.4 g, 49-53%), mp 156-158°C (Note 10). The product can be used without further purification or It can be recrystallized from chloroform. [Pg.212]

Fig. 9. Stored energy release curves for CSF graphite irradiated at 30°C in the Hanford K reactor cooled test hole [64], Note, the rate (with temperature) of stored energy release (J/Kg-K) exceeds the specific heat and thus under adiabatic conditions self sustained heating will occur. Fig. 9. Stored energy release curves for CSF graphite irradiated at 30°C in the Hanford K reactor cooled test hole [64], Note, the rate (with temperature) of stored energy release (J/Kg-K) exceeds the specific heat and thus under adiabatic conditions self sustained heating will occur.
See other pages where Cooling irradiation is mentioned: [Pg.113]    [Pg.319]    [Pg.56]    [Pg.552]    [Pg.113]    [Pg.319]    [Pg.56]    [Pg.552]    [Pg.1563]    [Pg.368]    [Pg.124]    [Pg.124]    [Pg.141]    [Pg.204]    [Pg.255]    [Pg.260]    [Pg.291]    [Pg.221]    [Pg.155]    [Pg.224]    [Pg.394]    [Pg.111]    [Pg.193]    [Pg.200]    [Pg.134]    [Pg.134]    [Pg.118]    [Pg.158]    [Pg.405]    [Pg.438]    [Pg.439]    [Pg.458]    [Pg.463]   
See also in sourсe #XX -- [ Pg.131 ]



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