urves of non-isothermal method have to be analyzed bysections. When T≥108℃,the kinetics mechanism function is G(α) =1-(1-α)~(1/2),the apparent activation energy is 6.3kJ/mol.
曲线需进行分段线性拟合,当T≥108℃时,动力学机理函数为G(α):1-(1-α)~(1/2),表观活化能E值为6.3kJ/mol。
参考来源 - 纳米级氢氧化镁的制备及干燥动力学研究Afterwards, the kinematics model of biomass pyrogenation in different experiement condition has been proved, the dynamics parameters of reaction mechanism function have been acquired .
然后分别建立了对应于不同实验条件的生物质热解反应动力学模型,并在此基础上求取了其对于反应级数模型中的一级反应机理函数的动力学参数,即反应活化能E和指前因子A。
参考来源 - 生物质材料热解实验及动力学分析·2,447,543篇论文数据,部分数据来源于NoteExpress
提出一种基于无模式法推断反应机理函数的新方法。
A new approach based on the model-free method was proposed to deduce the most probable mechanism function.
同步热分析法是一个比较精确的方法,其不但可以计算活化能而且可以同时求解反应级数和反应机理函数。
Simultaneous thermal analysis method is a relatively accurate method, it can not only compute the activation energy but also get reaction order and the conversion function at the same time.
然后将速率限制环节置于人机闭环系统中,利用描述函数法对驾驶员诱发振荡( PIO)机理进行了研究。
With the rate limiting element in man machine closed loop system, we analyse the PIO using the method of describing function.
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