Model-Free: ASTM E1641
This integral Ozawa method is only for points at 5% conversion, a special case of the Ozawa-Flynn-Wall analysis where the measurements are analyzed for multiple conversion levels. At least two dynamic measurements with positive heating rate are required.
The determination of the activation energy is using the points at 5% conversion without assumption about the reaction type.
Analysis
Analysis shows a graphic of Log(HeatingRate) vs. inverse temperatures of the points at 5% conversion. A linear dependence can be observed:
Activation energy and pre-exponential results are found from the slope and intersect of the linear fit.
The calculated Correlation R is explained in section Statistics.
Activation Energy
Pressing
shows the calculated activation energy including error bar – if the checkbox Show Error Bars is activated:
The activation energy is found for one point and is assumed to be constant for the entire conversion range.
Pre-Exponential Factor
Pressing
shows the calculated pre-exponential including error bar – if the checkbox Show Error Bars is activated:
The pre-exponential is found for one point and is assumed to be constant for the entire conversion range.
The chart presents decimal logarithm of pre-exponential factor.
Master Plot
Pressing
shows the calculated ratio f(α)/f(0.5):
Conversion Fit
Pressing
shows experimental and simulated values, where the simulation is done based on the results of the ASTM E1641 analysis:
In this case, the mismatch between data and simulated values indicates that the analysis according to ASTM E1641 might not be reliable. Points of 5% conversion have the same temperature for experimental and simulated curves, respectively.
Disadvantages
Disadvantages of this method:
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only for one-step reactions, for complex reactions the points are not on a straight line
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only for dynamic measurements
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only one point is evaluated, all other information is not used