摘要
根据对物质物料挤压过程的理论分析和实测数据,建立了挤压部件优化设计的数学模型,在模型中,以挤压系统的单耗为目标函数,根据某些设计要求推导了约束条件,并以挤压部件的主要参数如螺杆直径、螺距、螺槽深等作为设计变量。应用优化技术对部件的主要结构参数进行了优化设计,经验证表明,使用优化参数的挤压部件生产能力和功耗都有明湿地改进。
Based on theoretical analysis of the extrusion process of biomass materials and the data from actual measurement, a mathematical model of the extruding apparatus of optimum design was established. From some design requirements constraint conditions were derived, and the main parameters of the apparatus such as outside diameter of the screw, depth of the channel of the screw pitch and so on were taken as the design variables. This design problem can be abstracted from mathematics as a constrained nonlinear programme which contains seven variables and eighteen inequalities. The optimum structural parameters can be obtained by means of optimization technique through the method of repeated iteration and verified by experiments. The results showed that the values from optimum calculation were basically close to the real working condition. By using the apparatus developed, the production ability has been increased by 32. 9%-40%, and consumption decreased by 30. 8%. Technical characteristics of the apparatus were improved obviously.
Besides, applying the optimum software for solving this nonlinear programme the extrusion working process can be simulated as well. When changing operation conditions or taking different materials (i . e. different input data) , a group of optimum structural parameters and related data such as the conduction ability, consumption of power and pressure can be obtained.
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
1994年第4期142-147,共6页
Transactions of the Chinese Society of Agricultural Engineering
关键词
加工机械
挤压部件
结构参数
优化设计
农业废物
Extruding apparatus Mathematical model Structural parameter Optimum design