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化工学报 2014

倾斜通道内泡状流空泡份额分布特性

DOI: 10.3969/j.issn.0438-1157.2014.03.013, PP. 855-861

闫超星,阎昌琪,孙立成,幸奠川,刘国强

Keywords: 气液两相流,气泡,界面,倾斜条件,空泡份额

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Abstract:

对窄矩形通道（3.25mm×43mm）和常规圆管（i.d.50mm）内泡状流空泡份额分布特性进行了实验研究，探究倾斜对气泡和气液界面分布的影响。实验以空气和纯净水为工质，倾斜角度为5°、10°和15°。结果表明窄矩形通道内空泡份额主要呈壁峰型分布，未观察到核峰型分布；常规圆管内存在核峰型和壁峰型两种分布类型。倾斜对窄矩形通道和常规圆管内壁峰型分布影响相似，即随着倾斜角度的增加，靠近上壁面的峰值被加强，靠近下壁面的峰值被削弱直至消失。对于圆管内核峰型分布，倾斜导致中间宽峰向通道上部倾斜，且峰值随倾斜角度增加而增大。此外，竖直和倾斜条件下壁峰型分布的峰值较常规圆管更加接近通道中心位置。

References

[1]	Sadatomi M, Sato Y, Saruwatari S. Two-phase flow in vertical noncircular channels[J]. Int. J. Multiphase Flow, 1982, 8(6): 641-655
[2]	Shen X Z, Hibiki T, Ono T, et al. One-dimensional interfacial area transport of vertical upward bubbly flow in narrow rectangular channel[J]. Int. J. Heat and Fluid Flow, 2012, 36: 72-82
[3]	Mishima K, Ishii M. Flow regime transition criteria for upward two-phase flow in vertical tubes[J]. Int. J. Heat Mass Transfer, 1984, 27(5): 723-737
[4]	Wang Guangfei(王广飞), Yan Changqi(阎昌琪), Cao Xiaxin(曹夏昕), Xie Qingqing(谢清清). Flow pattern characteristics of two-phase flow through narrow rectangular channel under rolling condition[J]. Atomic Energy Science and Technology (原子能科学技术), 2011, 45(11): 1329-1334
[5]	Sun Bo(孙波), Sun Licheng(孙立成), Xing Dianchuan(幸奠川), Tian Daogui(田道贵), Liu Jingyu(刘靖宇). Distribution profile of interfacial area concentration in vertical and large circular tubes[J]. CIESC Journal (化工学报), 2012,63(6): 1810-1815
[6]	Hong G, Yan X, Yang Y H, et al. Experimental research of bubble characteristics in narrow rectangular channel under heaving motion[J]. Int. J. Thermal Sci., 2012, 51: 42-50
[7]	Ishii M. One-dimensional drift-flux model and constitutive equations for relative motion between phases in various two phase flow regimes[R]. ANL Report, 1977, ANL-77-47
[8]	Jones O C, Zuber N. Slug-annular transition with particular reference to narrow rectangular ducts. In Two-phase momentum[J]. Heat and Mass Transfer in Chemical Process and Energy Engineering Systems, 1979, 1(3): 345-355
[9]	Zhang Liying(张立英), Huang Qingshan(黄青山). Research progress in the modeling theory of airlift loop reactor[J]. The Chinese Journal of Process Engineering (过程工程学报), 2011, 11(1):0162-0173
[10]	Lucas D, Krepper E, Prasser H M. Use of models for lift, wall and turbulent dispersion forces acting on bubbles for poly-disperse flows[J]. Chem. Eng. Sci., 2007, 62(15): 4146-4157
[11]	Yan Chaoxing(闫超星), Yan Changqi(阎昌琪), Sun Licheng(孙立成), Wang Yang(王洋). Experimental study on effect of channel size on upward air-water two-phase flow regimes in vertical channels[J]. Atomic Energy Science and Technology (原子能科学技术), 2012, 46(suppl.): 71-75[12] Tomiyama A, Tamai H, Zun L, et al. Transverse migration of single bubbles in simple shear flows[J]. Chem. Eng. Sci., 2002, 57(10): 1849-1858

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