1. Rigid vorticity transport equation and its application to vortical structure evolution analysis in hydro-energy machinery
- Author
-
Zhifeng Yao, Yongshun Zeng, Chaoyue Wang, and Fujun Wang
- Subjects
Physics ,General Computer Science ,Structure (category theory) ,rigid vorticity ,Mechanics ,vorticity decomposition ,Vorticity ,Rotation ,Engineering (General). Civil engineering (General) ,Vortex ,Physics::Fluid Dynamics ,Flow (mathematics) ,Vorticity equation ,Hydro energy ,Modeling and Simulation ,Condensed Matter::Superconductivity ,transport equation ,hydro-energy machinery ,vortical structures ,TA1-2040 ,Convection–diffusion equation - Abstract
Vortex is the dominant flow structure in hydro-energy machinery, and its swirling features are mainly determined by the rigid rotation part of vorticity. In this study, the rigid vorticity transport equation is proposed based on the vorticity decomposition. The vortex spatial evolution is described by the stretching term RST, the dilatation term RDT, the Lamb term RCT and the viscous term RVT. The shape change of a vortex tube is mainly affected by RST and RDT, while vortex production and dissipation are mainly reflected by RCT and RVT. Compared with the traditional vorticity transport equation, this new theoretical tool can distinguish between rigid rotation and shearing motion of local fluids, and it can better reveal the intuitive evolution characteristics of vortical structures. Two cases with clear engineering demands are analysed by using the transport equation, and the results show that it can provide a practical method for the analysis and control of vortical flows in hydro-energy machinery.
- Published
- 2021