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Arrhenius rate expression

Deposition of TiN by the thermal decomposition of tetrakis(dimethylamido)titanium (TDMAT) in a nitrogen atmosphere (as opposed to ammonia) was characterized by a simple Arrhenius rate expression. Adequate deposition rates and good step coverage were achieved for 3/1 aspect ratio holes, 0.40 micron in size. A reactor model was designed,... [Pg.286]

In these equations the independent variable x is the distance normal to the disk surface. The dependent variables are the velocities, the temperature T, and the species mass fractions Tit. The axial velocity is u, and the radial and circumferential velocities are scaled by the radius as F = vjr and W = wjr. The viscosity and thermal conductivity are given by /x and A. The chemical production rate cOjt is presumed to result from a system of elementary chemical reactions that proceed according to the law of mass action, and Kg is the number of gas-phase species. Equation (10) is not solved for the carrier gas mass fraction, which is determined by ensuring that the mass fractions sum to one. An Arrhenius rate expression is presumed for each of the elementary reaction steps. [Pg.342]

K = Kq exp(—E /T), an Arrhenius rate expression Ao feed concentration, gmol cm-3 7o feed temperature, K A tank concentration, gmol cm-3 T tank temperature, K... [Pg.171]

In some cases experimental data indicate that the Arrhenius expression for the rate constant (Eq. 11.107) is modified by the coverage (concentration) of some surface species. Many functional forms for such coverage-dependence are possible. We describe one such choice that allows both the pre-exponential factor and the activation energy to be functions of the surface coverage of any surface species. The general modification of the Arrhenius rate expression is... [Pg.469]

It is common within the industry to characterize chemical processes in terms of one or a few global reaction steps, assigning an Arrhenius rate expression to describe the rate of each reaction. If knowledge of the detailed chemistry is inadequate or the chemical scheme is to be combined with computational fluid dynamics for a complex flow description, a simplified chemistry may be necessary. It is important, however, to realize that such a chemical description can only be used for the narrow range of conditions (temperature, composition, etc.) for which it is developed. Any extrapolation outside these conditions may be erroneous or even disastrous. [Pg.545]

From this molecular theory, we see that the diffusion coefficient depends on the frequency of cooperative main-chain motions of the polymer, v, which cause chain separations equal to or greater than the penetrant diameter. Pace and Datyner were able to estimate v by adopting an Arrhenius rate expression in which the pre-exponential factor, A, is a function of both AE and T. The diffusion coefficient is given by,... [Pg.98]

Thus, the reaction rate constant k can be estimated from the reaction heat flow without making any concentration measurements. Assuming an Arrhenius rate expression... [Pg.146]

Chick s early work at the Lister, undertaken with Charles Martin,37 was on the chemical kinetics of the disinfection process. Of particular importance, she found that the temperature dependence of the disinfectant action did not follow the Arrhenius rate expression instead, the rate increased by as much as seven- or eight-fold for a 10°C increase in temperature, thus showing that warm disinfectant solutions were far better for killing bacteria than cold solutions. This led to her being the co-developer of the Chick-Martin Test for the efficacy of a disinfectant. [Pg.62]

In artificial heat aging, property kinetics can be used in conjunction with the Arrhenius rate expression to estimate rate constants at room temperature provided the overall aging behavior, when monitored by a measurable parameter, can be shown to be constant over the temperature range of the study. [Pg.52]

Rate constants at 190, 160, 130, and 100 °C for the LO and DO degradation reactions were used to estimate the rate constants at 20 °C. The Arrhenius rate expression was applied with the plot of Ink versus 1000/T(K 1). A linear relationship was obtained with a correlation coefficient > 0.999 in Figure 17 in which LO and DO are represented. [Pg.65]

We have presented results for thermal cracking of shale oil vapor over shale. Cracking temperatures of 504 to 610°C and residence times of 2 to 11 seconds were studied. A first-order Arrhenius rate expression and associated stoichiometry were given. [Pg.65]

The reaction rate in a flammable vapor rises exponentially with temperature per the Arrhenius rate expression. A 3 percent change in temperature can lead to a doubling of reaction rate, leading to a sharp increase in temperature and heat release, causing a flame or explosion. [Pg.1827]

Despite Bodenstein s considerations of alternative mechanisms the forward and reverse reactions were generally assumed to occur as direct bimolecular reactions and these reactions soon became textbook examples of bimolecular reactions. Lewis [3] used Bodenstein s data to demonstrate the applicability of Arrhenius concept of active molecules and the Arrhenius rate expression. Hin-shelwood [4] cited the hydrogen-iodine reaction and its reverse as evidence for... [Pg.167]

The ability to model the detailed chemistry of ignition and combustion of energetic materials requires the simultaneous treatment of the chemical kinetics behavior of large chemical reaction systems combined with convective and diffusive transport of mass, momentum, and energy. Such models require the evaluation of equations of state, thermodynamic properties, chemical rate expressions, and transport properties. The computer software used to evaluate these quantities is referred to as the Chemkin package.33-35 includes an interpreter for the chemical reactions, a thermochemical data base, a linking file, and gas-phase subroutine libraries. The interpreter reads in the list of elementary chemical reactions. The forward reaction rates are given in the form of the Arrhenius rate expression... [Pg.52]

Note that the free energy barrier depends more strongly on surface tension than on the free energy difference. From the preceding discussion, we get the expected result that both the critical cluster size (/ ) and the free energy barrier (AG(R )) decrease with increase in supersaturation or supercooling and the rate of nucleation increases following the Arrhenius rate expression. [Pg.2]

Pk temperature exponent in Arrhenius rate expression (—) r generalized diffusion coefficient (variable units)... [Pg.340]

Arrhenius rate expression and concept of an activation energy provided an important basis for the analysis of the rate of chemical reactions. However, the main difficulty that remained was the absence of a general theory to predict the parameters in the rate expression. Whereas equilibria of reactions could be rigorously defined, the determination of reaction rates remained a branch of science, for which the basic principles still had to be formulated. This was achieved in the 1930s, when Henry Eyring, and independently, Michael Polanyi and M. G. Evans, formulated (and later refined) the transition-state theory. An important aim of this book is to present the current understanding of the Arrhenius equation and its parameters in the context of catalytic reactions. [Pg.9]

Expression (4.151) has the form of the Arrhenius rate expression (4.130). The activation energy and the frequency v ff is found to be equal to (apply (4.131b))... [Pg.146]

Substitution of (4.1706) in (4.163) shows that the Arrhenius rate expression equals... [Pg.151]


See other pages where Arrhenius rate expression is mentioned: [Pg.419]    [Pg.85]    [Pg.45]    [Pg.229]    [Pg.89]    [Pg.157]    [Pg.397]    [Pg.12]    [Pg.177]    [Pg.78]    [Pg.48]    [Pg.78]    [Pg.580]    [Pg.37]    [Pg.2102]    [Pg.580]    [Pg.160]    [Pg.2088]    [Pg.117]    [Pg.94]    [Pg.496]    [Pg.44]    [Pg.489]   
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