new setup and contributions on VIV of a cylinder near a plane
Authors, year | flow regime | new in setup compared to early research | new contribution | Re (GP) | methods | m* | ζ | m*ζ (GP) |
Chern, 2018,JoM | laminar | direct-forcing immersed boundary method | effect of e/d on skin friction on the plane | 100 | Num. | 10 | 0 | 0 |
Adnan, 2018, OE | subcritical | cosine wave | effect of e/d on friction coeff on plane | 5000 | Num., 2D,RANS, k-o model | 2 | 0 | 2*0 |
Barbosa, 2017, JFS | subcritical | more e/D ratio, extend wake oscilator model | detailed g/d on A*, f*; extend wake oscilator model | 6500-20,000 | Exp. | 5.5 | - | - |
Hsieh, 2016 | subcritical | high resolution PIV, Accurate measurements at the viscous sublayer | 3036~3924 | Exp. | 5.67 | 0.0106 | .601 | |
Yang,2009, Acta Mech Sin | subcritical | early Exp. viv near plane | results of A* near a plane | 2600-15,574 | Exp. | 1.36,2.6 | 0.0152 | |
sumer et al. 1994 | subcritical | 60,000 | Exp. |
- table is inspired by 8.3.2 sumer, 1997
- ν of water: 1.002e-3
- GP: govening/influencing parameters
- flow regime is based on table 1-1, zdravkovich, 1997
- DOF : degree of freedom
ref: table 1-1, zdravkovich, 1997
table 10.1 sumer,1997{B}
- where, B means book
Barbosa 2017 vs yang, 2009 what is new in barbosa‘s research?
- add more G/D cases on results of A* and f*
- extend wake oscilator model including plane boundary effect