甲烷裂解双分散孔催化剂颗粒积碳行为模拟  

作　　者：王帅[1] 杨学松 王家兴[1,2] 刘辉 WANC Shuai;YANG Xuesong;WANG Jiaxing;LIU Hui(School of Energy Science and Engineering,Harbin Institute of Technology,Harbin150001,China;Yantai Longyuan Power Technology Co.,Ltd.,Yantai 264006,China)

机构地区：[1]哈尔滨工业大学能源科学与工程学院,黑龙江哈尔滨150001 [2]烟台龙源电力技术股份有限公司,山东烟台264006

出　　处：《中国粉体技术》2024年第1期14-22,共9页China Powder Science and Technology

基　　金：国家自然科学基金项目,编号:52076060。

摘　　要：【目的】为了更好地理解催化剂颗粒的积碳行为,分析积碳效应下催化剂颗粒界面反应传质特性,实现对催化剂颗粒的优化设计与调控。【方法】采用颗粒解析模型,考虑积碳引起的孔隙结构动态演变以及反应性能的衰减,分别探讨单分散孔和双分散孔颗粒积碳形成及所引起的孔隙结构演变规律。【结果】积碳失活从多孔颗粒表层向内部核心移动,扩散主导机制转向反应主导机制;相较于单分散孔颗粒,双分散孔颗粒具备更强的抗积碳性能;固定床反应器中催化剂颗粒分布影响积碳行为,壁面处积碳更加严重,更容易导致失活。【结论】选择双分散孔催化剂颗粒对于积碳行为具有改善作用,同时应选择合适的长径比反应器,削弱壁面效应对积碳行为的影响。Objective When methane contacts with the catalyst,cokeis easily deposited on the catalyst surface.Carbon behaviors on the catalyst surface can cause a decrease in the intrinsic activity,leading to a reduction in the reaction rate.At the same time,car-bon deposition can also cause the evolution of catalyst pore structure,further affecting the eficiency of mass transfer and reaction.However,few studies about the relationship between dynamic evolution of pore structure and reaction deactivation can be available.In this work,considering the dynamic evolution of pore structure caused by carbon deposition,a particle-scale model is estab-lished.The impact of carbon deposition on the performance of monodisperse pore and bidisperse catalysts is analyzed,which pro-vides a theoretical foundation for the optimization design of porous catalyst.Methods In this paper,the catalyst wasfirst regarded as theporous media.Based on the transport model of porous media,a particle-scale model coupling mass transfer and reaction activitywas constructed,where the decay of reaction performance and the dynamic evolution of pore structure caused by carbon deposition were considered.Secondly,the simulation of methane cracking was carried out.The evolution of pore structure and diffusion-reaction performance of monodisperse and bidisperse catalysts were evaluated.Finally,the catalysts were packed in a fixed bed,and the reaction performance and carbon deposition distribution of bidisperse catalysts were analyzed.Results and Discussion Basedontheparticle-scale model coupling the mass transfer andreactivity,the instantaneous variations of hydrogen concentration inside the catalyst are shown in Fig.3.Compared to the monodisperse particle,the bidisperse particle has a lower diffusion resistance,leading to enhanced uniformity of hydrogen concentration distribution.The instantaneous varia-tions of carbon deposition and reaction rate are shown in Fig.4 and Fig.5.The maximum carbon deposition mass of bidisperse particleis also significantly increased,an

关 键 词：积碳 甲烷 裂解 双分散孔 孔隙结构 

分 类 号：TK91[动力工程及工程热物理] TB4[一般工业技术]