高效氯硅烷体系精馏分离技术与装备

在氯硅烷体系的高效精馏分离工艺技术研究中，使用Asepn-Plus专业软件建立能准确描述氯硅烷体系的精馏数学模型，经优化实现回收率可达95%；采用Dynamics 动态模拟软件对全工艺进行模拟，综合考虑在进料流量扰动和进料组分扰动下控制结构的抗干扰能力，含组分-温度的控制结构可以有效维持工业生产过程中由于进料及组成扰动所造成的参数波动，获得能准确控制工艺操作稳定性的工艺参数，从而使工业生产安全高效的运行。

In the research on efficient rectification separation process technology for chlorosilane systems, professional software Asepn-Plus was employed to establish a rigorous rectification mathematical model that accurately describes the chlorosilane system. After optimization, the recovery rate could reach up to 95%. Full-process simulation was conducted using Dynamics dynamic simulation software, with comprehensive consideration given to the anti-interference performance of control structures under feed flow rate disturbances and feed composition disturbances. The component-temperature integrated control structure can effectively suppress parameter fluctuations caused by feed flow and composition disturbances during industrial production. By optimizing process parameters that accurately regulate the operational stability of the process, industrial production can be operated safely and efficiently.