Studies on non-isothermal and isothermal dehydration kinetics of FePO4·2H2O

► Non-isothermal and isothermal dehydration kinetics of FePO4·2H2O were studied. ► The kinetic triplet was determined by multivariate non-linear regression method. ► FePO4·2H2O dehydration reaction found to be the nth-order reaction. ► Experimental data and the reconstructed data are in good agreeme...

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Bibliographic Details
Published in:Thermochimica acta 2012-08, Vol.541, p.57-61
Main Authors: Xiao, Li, Li, Lin, Fu, Fengying, He, Mingzhong
Format: Article
Language:English
Subjects:
activation energy
air
Dehydration
FePO4·2H2O
ferric phosphate
Isothermal kinetics
Non-isothermal kinetics
TGA
thermal degradation
X-ray diffraction
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Summary:► Non-isothermal and isothermal dehydration kinetics of FePO4·2H2O were studied. ► The kinetic triplet was determined by multivariate non-linear regression method. ► FePO4·2H2O dehydration reaction found to be the nth-order reaction. ► Experimental data and the reconstructed data are in good agreement. In dynamical air atmosphere, the non-isothermal and isothermal thermal decomposition of FePO4·2H2O have been studied by TG, DTG, DSC and XRD techniques. The studies clearly indicate that the decomposition occurs in a single reaction step: the dehydration of FePO4·2H2O to FePO4. The model-free methods together with multivariate non-linear regression approach were employed to determine the activation energy (E), the pre-exponential factor (A) and the kinetic model function (mechanism) of the dehydration reaction. The results show that the most probable kinetic model of dehydration for FePO4·2H2O is well described by the nth-order reaction (Fn), corresponding to the differential function f(α)=(1−α)n. For non-isothermal reaction, the values of n, E and ln(A/s−1) are 0.63, 81.10kJmol−1 and 16.79, respectively. For isothermal reaction, the values of n, E and ln(A/s−1) are 0.25, 81.47kJmol−1 and 16.70, respectively.
ISSN:0040-6031
1872-762X
DOI:10.1016/j.tca.2012.04.028