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Xenon stability

Because ot the large negative moderator density (void) coetficient ot reactivity, the BWR has a number ot inherent advantages. These are the use ot coolant flow as opposed to control rods tor load following, the inherent selt-flattening ot the radial power distribution, the ease ot control, the spatial xenon stability, and the ability to override xenon to follow load. [Pg.109]

Xenon stability The steam void reactivity is the primary factor in providing the high xenon stability characteristic. [Pg.116]

The stability of the electronic configuration is indicated by the fact that each element has the highest ionization energy in its period, though the value decreases down the group as a result of increasing size of the atoms. For the heavier elements is it actually smaller than for first-row elements such as O and F with consequences for the chemical reactivities of the noble gases which will be considered in the next section. Nuclear properties, particularly for xenon, have been exploited for nmr spectroscopy and Mdssbauer... [Pg.891]

As mentioned previously (11), the wavelength position and stability of spectral lines from xenon or mercury excitation sources of spectrofluorometers may be variable with time-, and such sources are difficult to use with certainty for the calibration of monochromators. ... [Pg.100]

Figure 1.1 shows that the stability sequence revealed by chemical reactions and chemical synthesis corresponds to thermodynamic stabilities. An explanation requires a theory that will explain both. To get it we apply the theory of atomic spectra [9]. The energy of the 4f electrons in an ion with the configuration [Xe]4P, F(4P), can be written [nU+E Q-p(4f )] where U, a negative quantity, is the energy of each 4f electron in the field of the positively charged xenon core, and Frep(4P) represents the repulsion between the n 4f electrons. In Table 1.1, rep(4P) is expressed as a function of the Racah parameters and E. The... [Pg.3]

The ligands must be located at the comers of an octahedron to minimize electron-electron repulsion between the electron pairs. To give the greatest stability, the two lone pairs must be as far apart as possible, because lone pairs take up more space than bonding pairs. Placing the lone pairs at opposite ends of one axis, 180° apart, minimizes their mutual repulsion. This leaves the four fluorine atoms in a square plane around xenon ... [Pg.629]

In the complex xenon functions as a n-donor toward Au2+. This is reflected in the calculated charge distribution within the cation, where the main part of the positive charge resides on the xenon atoms. Relativity plays a large role in stabilizing this and other predicted Au—Xe compounds about half of the Au—Xe bonding energy comes from relativistic effects.1993... [Pg.1018]

M. x 108M 1s 1 at 25°C, but may be appreciably lower in the solid state. In comparison k2 for oxygen competition for the alkyl radical is 2 x 109M-1s 1. Thus for air-saturated PPH ([02] 8 x 10-1,M)reaction7 will be protection against xenon irradiation was improved as compared to the parent piperidine by about 25, but the nitroxide itself was reduced to the 1 x 10 M level within the first lOOh and persisted at this level until brittle failure (7,) In contrast the parent amine is completely destroyed in the first lOOh of xenon exposure. [Pg.53]

We have used such cells (J 4) to generate and measure the kinetic stability over a wide temperature range of a wide variety of unstable species. The easiest experiments - and the first performed - were simply the photolysis of a metal carbonyl in liquid xenon doped with dissolved N2 and hence replacement of CO by N2. The V(N-N) IR bands are little weaker than v(C-O) bands and hence detection and characterization are straightforward, particularly when use is made of previous matrix studies. Species examined include Cr (CO) (N )x x = Ni(CO)3(N ) ( 16). ... [Pg.117]

Barber et al. introduced FAB in 1981. In this technique, bombardment of a liquid target surface by a beam of fast atoms such as xenon or argon, causes the continuous desorption of ions that are characteristic of the liquid. In a typical FAB spectrum, the analyte ion is usually formed as protonated or cationized ions in positive FAB, and deprotonated ions in negative FAB mode. A few fragmented ions may also be formed. The spectrum usually contains peaks from the matrix, such as protonated matrix clusters of glycerol if it is used as the matrix solvent. FAB utilizes a liquid matrix such as glycerol. The matrix is used to enhance sensitivity and ion current stability. [Pg.509]

Sevoflurane comes close to having the characteristics of an ideal inhaled anesthetic however, a more insoluble compound that lacks the pungency of desflurane and has greater chemical stability than sevoflurane could be a useful alternative to the currently available inhaled agents. One of the possible new inhaled anesthetics that could be developed for clinical use in the future is xenon. However, the high cost of this novel drug may preclude its use in routine clinical practice. [Pg.544]

See other pages where Xenon stability is mentioned: [Pg.116]    [Pg.117]    [Pg.118]    [Pg.258]    [Pg.116]    [Pg.117]    [Pg.118]    [Pg.258]    [Pg.2955]    [Pg.129]    [Pg.141]    [Pg.203]    [Pg.11]    [Pg.216]    [Pg.233]    [Pg.234]    [Pg.240]    [Pg.19]    [Pg.272]    [Pg.11]    [Pg.615]    [Pg.913]    [Pg.990]    [Pg.36]    [Pg.239]    [Pg.52]    [Pg.42]    [Pg.392]    [Pg.220]    [Pg.410]    [Pg.252]    [Pg.150]    [Pg.614]    [Pg.393]    [Pg.99]    [Pg.143]    [Pg.296]    [Pg.105]    [Pg.341]    [Pg.13]   
See also in sourсe #XX -- [ Pg.116 ]

See also in sourсe #XX -- [ Pg.258 ]



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