设计简介
摘要
本文主要以老师所给的基本参数为基础,进行混流式水轮机 导水机构设计。根据给出的数据,确定单台水轮机的功率为80Mw,在此基础上初步选定水轮机的型号为HL160,初步选定了转轮型号,轴的直径,然后从机组的运行稳定性在此基础上,根据论文要求完成导水机构的设计,主要包括导水机构各零件图、装配图、各零件的三维图和三维仿真,以及轴的强度设计、计算。
Abstract
In this paper, the basic parameters of the teacher mainly given as the basis for Francis hydraulic turbine designs. According to data given to determine a single turbine power 80Mw, initially selected turbine model HL160 on this basis, the initial selection of the wheel models, shaft diameter, and from the running stability of the unit on the basis of , according to the papers required to complete the design guidelines of water bodies, including bodies of water guide parts and assembly drawings, three-dimensional map of each part and three-dimensional simulation, as well as the strength of the shaft design calculations.
本文主要以老师所给的基本参数为基础,进行混流式水轮机 导水机构设计。根据给出的数据,确定单台水轮机的功率为80Mw,在此基础上初步选定水轮机的型号为HL160,初步选定了转轮型号,轴的直径,然后从机组的运行稳定性在此基础上,根据论文要求完成导水机构的设计,主要包括导水机构各零件图、装配图、各零件的三维图和三维仿真,以及轴的强度设计、计算。
Abstract
In this paper, the basic parameters of the teacher mainly given as the basis for Francis hydraulic turbine designs. According to data given to determine a single turbine power 80Mw, initially selected turbine model HL160 on this basis, the initial selection of the wheel models, shaft diameter, and from the running stability of the unit on the basis of , according to the papers required to complete the design guidelines of water bodies, including bodies of water guide parts and assembly drawings, three-dimensional map of each part and three-dimensional simulation, as well as the strength of the shaft design calculations.
