图 1  各种几何结构形式的钝体绕流示意图　(a)圆形截面的直圆柱; (b)方形截面的直方柱; (c)圆形截面的谐波柱; (d)圆形截面的圆锥柱; (e)方形截面的全弯曲方柱

Figure 1.  Schematics of a flow past a bluff body with different geometry: (a) The straight cylinder with circular cross-section; (b) the straight cylinder with square cross-section; (c) the harmonic cylinder with circular cross-section; (d) the conic cylinder with circular cross-section; (e) the wholly wavy cylinder with square cross-section.

图 2  Re = 200时直圆柱尾迹中各个涡分量等值面以及柱体表面各个涡分量等值线(其中红色和蓝色分别表示正值和负值, 注意等值面图中采用半透明灰色面来表示圆柱体, 且流动从左至右)　(a) ${\omega _x} = \pm 0.4$等值面; (b) ${\omega _y} = \pm 0.2$等值面; (c) ${\omega _z} = \pm 0.8$等值面; (d) ${\omega _x}$等值线; (e) ${\omega _y}$等值线; (f) ${\omega _z}$等值线

Figure 2.  At Re = 200, iso-surfaces of ${{\omega}}$ in the wake of a straight circular cylinder, and contours of ${{\omega}}$ on cylinder surfaces, where red and blue colors denote positive and negative values, respectively: (a) Iso-surfaces of ${\omega _x} = \pm 0.4$; (b) iso-surfaces of ${\omega _y} = \pm 0.2$; (c) iso-surfaces of ${\omega _z} = \pm 0.8$; (d) contours of ${\omega _x}$; (e) contours of ${\omega _y}$; (f) contours of ${\omega _z}$. Note that the cylinder is denoted by the grey translucent surface in iso-surfaces and the flow is from left to right.

图 3  Re = 300时直圆柱尾迹中各个涡分量等值面以及柱体表面各个涡分量等值线(其中红色和蓝色分别表示正值和负值, 以及等值线图中的绿色则表示$\left| {{\omega _x}} \right|$或$\left| {{\omega _y}} \right|$小于0.001; 注意, 等值面图中采用半透明灰色面来表示圆柱体, 且流动从左至右)　(a) ${\omega _x} = $$ \pm 0.2$等值面; (b) ${\omega _y} = \pm 0.2$等值面; (c) ${\omega _z} = \pm 1$等值面; (d) ${\omega _x}$等值线; (e) ${\omega _y}$等值线; (f) ${\omega _z}$等值线

Figure 3.  At Re = 300, iso-surfaces of ${{\omega}}$ in the wake of a straight circular cylinder, and contours of ${{\omega}}$ on cylinder surfaces, where red and blue colors denote positive and negative values, respectively, and green color in contours denotes $\left| {{\omega _x}} \right|$ or $\left| {{\omega _y}} \right|$ less than 0.001: (a) Iso-surfaces of ${\omega _x} = \pm 0.2$; (b) iso-surfaces of ${\omega _y} = \pm 0.2$; (c) iso-surfaces of ${\omega _z} = \pm 1$; (d) contours of ${\omega _x}$; (e) contours of ${\omega _y}$; (f) contours of ${\omega _z}$. Note that the cylinder is denoted by the grey translucent surface in iso-surfaces and the flow is from left to right.

图 4  Re = 180时直方柱尾迹中　(a) ${\omega _x} = \pm 0.8$(黄/绿)和${\omega _z} = \pm 1$ (红/蓝)等值面图, 其中背景为$z = 0$处的${\omega _z}$等值线色图; (b) $z = {\lambda / 4}$处${\omega _x}$的等值线色图; (c) $z = {\lambda / 4}$处${\omega _y}$的等值线色图; 图中红色和蓝色, 以及${\omega _z}$等值线的实线和虚线分别表示正值和负值

Figure 4.  In the wake of a square cylinder at Re = 180: (a) Iso-surfaces of ${\omega _x} = \pm 0.8$ (yellow/green) and ${\omega _z} = \pm 1$ (red/blue), where the background is colorful contours of ${\omega _z}$ at $z = 0$; (b) colorful contours of ${\omega _x}$ at $z = {\lambda / 4}$; (c) colorful contours of ${\omega _y}$ at $z = {\lambda / 4}$. In Fig. 4, red and blue colors, as well as solid and dashed lines in contours of ${\omega _z}$, denote positive and negative values, respectively.

图 5  Re = 250时直方柱尾迹中　(a) ${\omega _x} = \pm 0.8$(黄/绿)和${\omega _z} = \pm 1$ (红/蓝)等值面图, 其中背景为$z = 0$处的${\omega _z}$等值线色图; (b) $z = {\lambda / 4}$处${\omega _x}$的等值线色图; (c) $z = {\lambda / 4}$处${\omega _y}$的等值线色图, 其中红色和蓝色, 以及${\omega _z}$等值线的实线和虚线分别表示正值和负值

Figure 5.  In the wake of a square cylinder at Re = 250: (a) Iso-surfaces of ${\omega _x} = \pm 0.8$ (yellow/green) and ${\omega _z} = \pm 1$ (red/blue), where the background is colorful contours of ${\omega _z}$ at $z = 0$; (b) colorful contours of ${\omega _x}$ at $z = {\lambda / 4}$; (c) colorful contours of ${\omega _y}$ at $z = {\lambda / 4}$. In Fig. 5, red and blue colors, as well as solid and dashed lines in contours of ${\omega _z}$, denote positive and negative values, respectively.

图 6  Re = 100, ${W / \lambda } = 0.1$且$\lambda = 8$时谐波柱尾迹中3个涡分量等值面图(其中红色和蓝色分别为正值和负值, 背景为$z = 0$处${\omega _z}$的等值线色图)　(a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$

Figure 6.  At Re = 100, ${W / \lambda } = 0.1$ and $\lambda = 8$, iso-surfaces of three components of vorticity in the wake of a harmonic cylinder: (a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$. In Fig. 6, red and blue colors denote positive and negative values, respectively, and the background is the colorful contour of ${\omega _z}$ at $z = 0$.

图 7  Re = 100, ${W / \lambda } = 0.1$且$\lambda = 4$时谐波柱尾迹中3个涡分量等值面图(其中红色和蓝色分别为正值和负值, 背景为$z = 0$处${\omega _z}$的等值线色图)　(a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$

Figure 7.  At Re = 100, ${W / \lambda } = 0.1$ and $\lambda = 4$, iso-surfaces of three components of vorticity in the wake of a harmonic cylinder: (a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$. In Fig. 7, red and blue colors denote positive and negative values, respectively, and the background is the colorful contour of ${\omega _z}$ at $z = 0$.

图 8  Re = 100, ${W / \lambda } = 0.1$且$\lambda = 8$时圆锥柱尾迹中三个涡分量等值面图(其中红色和蓝色分别为正值和负值, 背景为$z = 0$处${\omega _z}$的等值线色图)　(a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$

Figure 8.  At Re = 100, ${W / \lambda } = 0.1$ and $\lambda = 8$, iso-surfaces of three components of vorticity in the wake of a conic cylinder: (a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$. In Fig. 8, red and blue colors denote positive and negative values, respectively, and the background is the colorful contour of ${\omega _z}$ at $z = 0$.

图 9  Re = 100, ${W / \lambda } = 0.2$且$\lambda = 4$时圆锥柱尾迹中3个涡分量等值面图(其中红色和蓝色分别为正值和负值, 背景为$z = 0$处${\omega _z}$的等值线色图)　(a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$

Figure 9.  At Re = 100, ${W / \lambda } = 0.2$ and $\lambda = 4$, iso-surfaces of three components of vorticity in the wake of a conic cylinder: (a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$. In Fig. 9, red and blue colors denote positive and negative values, respectively, and the background is the colorful contour of ${\omega _z}$ at $z = 0$.

图 10  典型的全弯曲方柱迎风面表面涡量分布(Re = 100, $\lambda = 5.6$和${W / \lambda } = 0.025$)　(a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$

Figure 10.  Typical distributions of surface vorticity on the wholly wavy cylinder with a square cross-section (Re = 100, $\lambda = 5.6$ and ${W / \lambda } = 0.025$): (a) ${\omega _x}$; (b) ${\omega _y}$; (c) ${\omega _z}$.

图 11  Re = 100, $\lambda = 5.6$和${W / \lambda } = 0.025$时全弯曲方柱尾迹中涡量等值面分布　(a) ${\omega _z} = \pm 1$ (红/蓝); (b) ${\omega _x} = $$\pm 0.25 $ (黄/绿)和${\omega _y} = \pm 0.5$(红/蓝)

Figure 11.  At Re = 100, $\lambda = 5.6$ and ${W / \lambda } = 0.025$, iso-surfaces of $\omega $ in the wake of the wholly wavy cylinder with a square corss-section: (a) ${\omega _z} = \pm 1$ (red/blue); (b) ${\omega _x} = $$\pm 0.25 $ (yellow/green) and ${\omega _y} = \pm 0.5$(red/blue).

图 12  Re = 100, $\lambda = 5.6$和${W / \lambda } = 0.167$时全弯曲方柱尾迹中涡量等值面分布　(a) ${\omega _z} = \pm 1$ (红/蓝)和${\omega _x} =\pm 0.25$ (黄/绿); (b) ${\omega _x} = \pm 0.25$(黄/绿)和${\omega _y} = \pm 0.5$(红/蓝)

Figure 12.  At Re = 100, $\lambda = 5.6$ and ${W / \lambda } = 0.167$, iso-surfaces of $\omega $ in the wake of the wholly wavy cylinder with a square corss-section: (a) ${\omega _z} = \pm 1$ (red/blue) and ${\omega _x} = \pm 0.25$ (yellow/green); (b) ${\omega _x} = \pm 0.25$(yellow/green) and ${\omega _y} =$$ \pm 0.5 $ (red/blue).