催化裂化催化剂机械强度与磨损行为

Mechanical properties and attrition behavior of fluid catalytic cracking catalysts

  • 摘要: 通过纳米压痕和显微硬度等测试方法,基于纳米和微米两种尺度,分析研究了两种流化催化裂化(FCC)催化剂的机械强度,并在实验室采用喷杯式流化磨损方法,考察了两种抗磨损性能差异较大的FCC催化剂的磨损规律.从压痕力学测试、微观形貌分析、磨损率评价和颗粒粒度分布等方面研究了两种FCC催化剂在气态流化床中的磨损机制,了解颗粒自身性质对其磨损行为的影响作用.结果表明,催化剂磨损的发展过程符合Gwyn磨损动力学方程,两种催化剂颗粒磨损规律的差别可由Gwyn方程的各参数来描述.

     

    Abstract: The attrition of two different fluid catalytic cracking(FCC) catalysts was investigated by laboratory-scale jet-cup test.The mechanical properties of the catalyst particles were evaluated by nano-indentation test and conventional microhardness test based on the nano-and the micro-length scales.The attrition mechanism of the catalyst particles in a gas fluidized bed was analyzed in terms of indentation testing,morphology characterization,attrition rate evaluation and particle size distribution analysis.The influences of material characteristic properties on the particle attrition were mainly discussed.The results show that the attrition of the catalyst particles follows Gwyn's kinetic model and the difference of attrition mechanisms of various catalyst particles can be categorized with the parameters of the Gwyn equation.

     

/

返回文章
返回