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Evolution of the concentration profile in the porous medium

Evolution of the concentration profile with time near the electrode surface, just after the potential has been stepped to the limiting current region, D 7 x 10 cm s

Evolution of the concentration profile within the aqueous plug for Case 3 at different residence times as taken from numerical solution

Evolution of the concentration profiles in the y direction in the left sides of the ferrierite crystal as a function of the parameter y . g

Evolution of the concentration with the fraction crystallized .

Evolution of the concentrations of the species A and B for a reversible first-order system until equilibrium is reached. The fiiU line indicates the situation in which kf and the dashed line shows the evolution of the system in which kf 3k

Evolution of the condensation temperatures of freeze-dried CIBACALCIN and REVASC in the course of storage at 20 C.

Evolution of the conductance of sensors -with two metallic zones submitted to different atmospheres at 450 C

Evolution of the conductance of sensors disposing of two metallic zones submitted to different atmospheres at 450 C

Evolution of the conductance of sensors with three metallic zones submitted to different atmospheres at 450 C

Evolution of the conservation modulus E

Evolution of the conversion of initiator as function of the conversion of monomer for the polymerization of MMA on MeOPEG-h 13 at 50 C in toluene-c

Evolution of the conversion of initiator in reacted initiator as a function of the conversion of monomer for the polymerization of MMA with MeOPEG-I at 90 C in toluene- .

Evolution of the conversion of the reactant in the PF reactor A hen a fast exothermic reaction takes place.

Evolution of the coolant flow rate for a 10 rise in the production rate at operating point I, under plant-model parameter mismatch. The heat transfer coefficient U in the controller model is overestimated by 10 compared with its value in the plant.

Evolution of the coolant flow rate for an unmeasured 6-K rise in the coolant inlet temperature at t 0.

Evolution of the coolant flow rate in the case of switching between operating points II and III, in the presence of a 10-K unmeasured increase in the coolant inlet temperature and an unmodeled 20 drop in the heat transfer coefficient U. Both disturbances occur at t 60 min.

Evolution of the coolant flow rate in the case of switching between operating points II and III.

Evolution of the coordinate made for the comparison between the exact results. The system-bath interaction strength is 77b O.bMfln and the cut-off frequency ujc See text for the excitation field.

Evolution of the corrosion rate as a function of the elaboration geometry and the presence of yttrium oxide .

Evolution of the cost of vehicles, with kind permission of PSA

Evolution of the crack growth energy, Jic, with peroxide content of the copolymers under study.

Evolution of the crack growth energy, Jic, with peroxide content of the polypropylenes under study.

Evolution of the crack velocity as a function of the stress intensity factor, for as prepared and oxidized aerogel.

Evolution of the craze length for a growing craze versus time. The crack-tip is immobile. From Ref courtesy of Dr. Dietrich SteinkopfT Verlag



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