用无模型方法研究森林废弃物的热动力学

Q2 Multidisciplinary

Universitas Scientiarum Pub Date : 2019-02-01 DOI:10.11144/JAVERIANA.SC24-1.TOFW

A. Dhaundiyal, A. Mohammad, T. Laszlo

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引用次数: 10

摘要

通过热重技术研究了松针的热行为。干燥后的松针试样在308 ~ 1173 K的温度范围内进行非等温分解。用于实验目的的加热速率为:5°C min-1, 10°C min-1和15°C min-1。通过无模型方案得到了松针热分解反应的动力学参数。Kissinger法得到的活化能和频率因子的估计值分别为132.77 kJ mol-1和13.15 x107 min-1。此外，等转化方法获得的相同动力学参数的平均值分别为82.38 kJ mol-1和74.833 kJ mol-1, 25.42 x1013 min-1和13.449 x1010 min-1。与Flynn-Wall-Ozawa (FWO)和Kissinger- akahira Sunrose (KAS)方案相比，Kissinger方法得到的动力学参数在热解过程中受中间阶段和并发反应重叠的影响较大，因此相对有希望用于热分解过程。

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Thermo-kinetics of Forest Waste Using Model-Free Methods

Thermal behaviour of pine needles (Pinus Roxburghii) is examined through a thermogravimetry technique. The dried samples of pine needles undergo the non isothermal decomposition at temperature range of 308 - 1173 K. The heating rates used for experimental purposes are: 5 °C min-1, 10 °C min-1 and 15 °C min-1. Kinetic parameters of thermal decomposition reactions of pine needles are obtained through the model-free schemes. The estimated values of activation energy and frequency factor derived from Kissinger method are 132.77 kJ mol-1 and 13.15 x107 min-1, respectively. Furthermore, the averaged values of the same kinetics parameters retrieved from the isoconversional methods are 82.38 kJ mol-1 and 74.833 kJ mol-1, 25.42 x1013 min-1 and 13.449 x1010 min-1, respectively. Instead of the Flynn-Wall-Ozawa (FWO) and Kissinger-Akahira Sunrose (KAS) schemes, the kinetic parameters derived from the Kissinger method are relatively promising for the thermal decomposition process, since the kinetic parameters are highly affected by intermediate stages and overlapping of the concurrent reaction occurred during pyrolysis.

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来源期刊

Universitas Scientiarum Multidisciplinary-Multidisciplinary

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

15 weeks