Sun Shufeng, Wu Yuyuan, Zhao Rongyi. The numerical calculation of heat transfer performance for annular flow of liquid nitrogen in a vertical annular channel [J]. Cryogenics, 2001, 41 (2001): 231-237
[2]
Su Guanghui, Gou Junli, Qiu Suizheng, Yang Xiaoqiang, Jia Dounan. Theoretical calculation of annular upward flow in a narrow annuli with bilateral heating [J]. Nuclear Engineering and Design, 2003, 225 (2003): 219-247
[3]
Du D X, Tian W X, Su G H, Qiu S Z, Huang Y P, Yan X. Theoretical study on the characteristics of critical heat flux in vertical narrow rectangular channels [J]. Applied Thermal Engineering, 2012, 36 (2012): 21-31
[4]
Joseph D D, Bannwart A C, Liu Y J. Stability of annular flow and slugging [J]. International Journal of Multiphase Flow, 1996, 22 (6): 1247-1254
[5]
Fore L B, Beus S G, Bauer R C. Interfacial friction in gas-liquid annular flow: analogies to full and transition roughness [J]. International Journal of Multiphase Flow, 2000, 26 (11): 1755-1769
[6]
Kataoka I, Ishii M, Nakayama A. Entrainment and deposition rates of droplets in annular two-phase flow [J]. International Journal of Heat and Mass Transfer, 2000, 43 (9): 1573-1589
[7]
Milashenko V I, Nigmatulin B I, Petukhov V V. Burnout and distribution of liquid in evaporative channels of various lengths [J]. International Journal of Multiphase Flow, 1989, 15 (3): 393-401
[8]
Tatsuhiro Ueda, Mitsuru Inoue, Seichi Nagatome. Critical heat flux and droplet entrainment rate in boiling of falling liquid films [J]. International Journal of Heat and Mass Transfer, 1981, 24 (6): 1257-1266
[9]
Pu Pengfei (蒲鹏飞), Pan Liangming (潘良明), Li Wushen (李午申), Huang Yongjun (黄永军). Annular flow analysis model for boiling heat transfer in vertical narrow rectangular gap [J]. Journal of Thermal Science and Technology (热科学与技术), 2005, 4 (3): 208-212
[10]
Wang Jihui, Tang Dawei, Yan Xiaohong. An experimental study on the flow boiling heat transfer and its visualization of water in a rectangular micro-groove horizontally [J]. Journal of Graduate School of Chinese Academy of Sciences, 2007, 24 (1): 34-38
[11]
Okawa Tomio, Kataoka Isao. Correlations for the mass transfer rate of droplets in vertical upward annular flow [J]. International Journal of Heat and Mass Transfer, 2005, 48 (23/24): 4766-4778
[12]
Han Huawei, Gabriel Kamiel S, Wang Zhaolin. A new method of entrainment fraction measurement in annular gas-liquid flow in a small diameter vertical tube [J]. Flow Measurement and Instrumentation, 2007, 18 (2): 79-86
[13]
Sawant Pravin, Ishii Mamoru, Mori Michitsugu. Droplet entrainment correlation in vertical upward co-current annular two-phase flow [J]. Nuclear Engineering and Design, 2008, 238 (6): 1342-1352
[14]
Barbosa Jr J R, Hewitt G F, Konig G, Richardson S M. Liquid entrainment, droplet concentration and pressure gradient at the onset of annular flow in a vertical pipe [J]. International Journal of Multiphase Flow, 2002, 28 (6): 943-961
[15]
Cioncolini Andrea, Thome John R. Entrained liquid fraction prediction in adiabatic and evaporating annular two-phase flow [J]. Nuclear Engineering and Design, 2012, 243 (2012): 200-213
[16]
Li Weidong (李卫东), Li Rongxian (李荣先), Wang Yueshe (王跃社), Zhou Fangde (周芳德). Model for prediction of circumferential distribution of film thickness in horizontal gas-liquid annular flow [J]. Journal of Chemical Industry and Engineering (China) (化工学报), 2001, 52 (3): 204-208
[17]
Qu Weilin, Mudawar Issam. Flow boiling heat transfer in two-phase micro-channel heat sinks (Ⅱ): Annular two-phase flow model [J]. International Journal of Heat and Mass Transfer, 2003, 46 (15): 2773-2784
[18]
Fu Feng, Klausner James F. A separated flow model for predicting two-phase pressure drop and evaporative heat transfer for vertical annular flow [J]. International Journal of Heat and Fluid Flow, 1997, 18 (6): 541-549
[19]
Taitel Y, Dukler A E. A model for predicting flow regime transitions in horizontal and near horizontal gas-liquid flow [J]. AIChE J, 1976, 22 (2): 47-55
[20]
Kim Sung-Min, Issam Mudawar. Theoretical model for annular flow condensation in rectangular micro-channels [J]. International Journal of Heat and Mass Transfer, 2012, 55 (2012): 958-970
