聚烯烃技术水平一定程度代表一个国家的工业现代化程度。反应器技术是其中关键技术之一。目前，国内大型连续化聚丙烯反应器技术全部从国外引进，且绝大多数聚丙烯反应器的能耗与物耗均高于国外水平。要解决上述问题，自主开发新反应器技术，开展丙烯聚合反应器放大研究非常必要。核心内容就是丙烯聚合过程的化学工程特性研究。. 用多学科交叉方法研究国内主要引进的聚丙烯反应器（环管、多区循环流化床及搅拌釜）中液固、气固及气液固等多相复杂系统，认识聚合物链形成（微观尺度传递）、聚合物颗粒（群）运动（介观尺度传递）、相际传递和聚合反应（宏观尺度传递）等基本过程特性，建立多尺度的物理和数学模型，模拟多相反应器内部的多尺度流场。从而，获取多尺度的丙烯聚合过程的传递与反应规律。. 本项目的开展将为国内消化与吸收引进技术，自主开发新技术提供指导，为丙烯聚合装置设计和放大奠定基础，促进化工学科发展。

The technical level of polyolefin industry is an important indicator of the industrialization level of a country. Reactor technology is one of the key technologies in the polyolefin industry. Currently, all domestic large scale continuous polypropylene (PP) reactor technologies were introduced from abroad. Also, the energy and the material consumption of the vast majority of domestic polypropylene reactor are higher than those in oversea. In order to solve the problems and develop new reactor technology independently in China, it is highly desirable to investigate the process of propylene polymerization reactor scale-up. The primary task is to study the characteristics of chemical engineering of the propylene polymerization process.. In this project, three representative PP reactors (i.e. loop reactor, multizone circulating reactor and stirred tank reactor) will be selected as the studied objects. And their multiphase transport and reaction behaviors, i.e. the liquid-solid two-phase behavior in loop reactor, the gas-solid two-phase behavior in multizone circulating reactor and the gas-liquid-solid three-phase behavior in stirred tank reactor, will be studied thoroughly by using an interdisciplinary approach. Due to the multi-scale characteristics of these systems, we will study polymer chain generation at micro-scale, polymer particle (cluster) motion at meso-scale as well as interphase transfer and polymerization reaction at macro-scale from a multi-scale perspective. Moreover, we will establish multi-scale physical and mathematical models to describe the multi-scale flow fields in these reactors. Based on these studies, the multi-scale transport and reaction rules in the propylene polymerization process will be attained.. In short, systematical multi-scale transport and reaction engineering studies on the scale-up for three representative PP reactors in chemical industry will be carried out in this project. The systematical studies will be helpful to assimilate the imported technologies, to provide guidance for independently developing new technologies, and to promote the development of chemical engineering. Moreover, the systematical studies will also lay the foundation for the propylene polymerization equipment design and scale-up.