Floor temperature kinetic

The indicated procedure for analyzing the kinetics of non-stationary polymerizations is evidently unacceptably simplified, and may serve only as a very rough model for the analysis of actual situations. An exact general procedure should include thermodynamic principles (floor and ceiling polymerization temperatures), detailed concepts on the generation and decay of active centres and on transfer (especially degradative). 

The stability relationships between calcite, dolomite and magnesite depend on the temperature and activity ratio of Mg " /Ca " (Fig. 5d). Lower Mg/Ca activity ratios are required to induce the dolomitization of calcite and to stabilize magnesite at the expense of dolomite (Fig. 5d) (Usdowski, 1994). Formation waters from the Norwegian North Sea reservoirs have an average log(an g -/ cz- ) - TO to 0.0 and thus fall within the stability field of dolomite. Nevertheless, both calcite and dolomite are common cements in these rocks, indicating that dolomitization is a kinetically controlled reaction. Further evidence of this is revealed from Recent sediments, such as the Fraser River delta in Canada (Simpson Hutcheon, 1995) (log (aMg2+/aca=+) -2.2 to h-1.0), where the pore waters are saturated with respect to dolomite, but it is calcite rather than dolomite that precipitates. Calcite rather than dolomite forms below the deep>-sea floor, yet the pore waters plot at shallow, near sea bottom temperatures in the stability field of dolomite and shift with an increase in depth towards the stability field of calcite (Fig. 5d). This shift is due to a diffusion-controlled, downhole decrease in Mg/Ca activity ratio caused by the incorporation of Mg in Mg-silicate that results from the alteration of volcanic material, a process which is coupled with the release of calcium (McDuff Gieskes, 1976). 

This statement seems to contradict every-day experience If we consider again the example of the gas molecules in a container, now at a fixed temperature, it seems to imply that all gas molecules should lie at rest on the floor of the container because this would minimise their potential and kinetic energy. This, however, is not observed. 

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