Liquid entrainment through a large-scale inclined branch pipe on a horizontal main pipe |
Gu, Ningxin
(Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University)
Shen, Geyu (Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University) Lu, Zhiyuan (Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University) Yang, Yuenan (Patent Examination Cooperation (Beijing) Center of the Patent Office, SIPO) Meng, Zhaoming (Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University) Ding, Ming (Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University) |
1 | J. Kowalski, B. Hanna, Studies of two-phase flow distribution in a CANDU-type header/feeder system, in: Fourth International Topical Meeting on Nuclear Reactor Thermal-Hydraulics (NURETH-4). Proceedings, vol. 1, 1989. |
2 | T.L. Schulz, Westinghouse AP1000 advanced passive plant, Nucl. Eng. Des. 236 (14) (2006) 1547-1557. DOI |
3 | W.W. Wang, G.H. Su, S.Z. Qiu, W.X. Tian, Thermal hydraulic phenomena related to small break LOCAs in AP1000, Prog. Nucl. Energy 53 (4) (2011) 407-419. DOI |
4 | N. Zuber, Problems In Modeling of Small Break LOCA. Technial Report, Nuclear Regulatory Commission, Washington, DC (USA), 1980. Div. of Reactor Safety Research. |
5 | H. Rouse, Seven exploratory studies in hydraulics, Proceedings of ASCE 82 (4) (1956) 1-35. |
6 | J. Crowley, Flow Visualization and Break Mass Flow Measurements in Small Break Separate Effects Experiments, EPRI, America, 1981. |
7 | K.B. Welter, Liquid entrainment at an upward oriented vertical branch line from a horizontal pipe, Diss. Abstr. Int. (2002) 4-6. |
8 | B.D. Chung, W.J. Lee, M. Hwang, Y.S. Bang, I.G. Kim, S.H. Ahn, RELAP5/MOD3 Horizontal Off-Take Model for Application to Reactor Headers of CANDU Type Reactors, Nuclear Regulatory Commission, U. S., 2010. |
9 | J.Y. Lee, S.H. Hwang, M. Kim, G.C. Park, Onset condition of gas and liquid entrainment at aninclined branch pipe on a horizontal header, Nucl. Eng. Des. 237 (10) (2007) 1046-1054, https://doi.org/10.1016/j.nucengdes.2007.01.002. DOI |
10 | J.Y. Lee, G.S. Hwang, M. Kim, H.C. NO, Experimental analysis of off-take phenomena at the header-feeder system of CANDU, Ann. Nucl. Energy 33 (1) (2006) 1-12. DOI |
11 | J.T. Bartley, H.M. Soliman, G.E. Sims, Experimental investigation of the onsets of gas and liquid entrainment from a small branch mounted on an inclined wall, Int. J. Multiph. Flow 34 (10) (2008) 905-915. DOI |
12 | V.E. Schrock, S.T. Revankar, R. Mannheimer, Small Break Discharge the Roles of Vapor and Liquid Entrainment in a Stratified Two-phase Region Upstream of the break[R], Nuclear Regulation Commission, America, 1986. |
13 | C. Smoglie, J. Reimann, U. Muller, Two phase flow through small breaks in a horizontal pipe with stratified flow, Nucl. Eng. Des. 99 (1987) 117-130. DOI |
14 | T. Maciaszek, J.C. Micaelli, CATHARE phase separation modeling for small breaks in horizontal pipes with stratified flow, Nucl. Eng. Des. 124 (3) (1990) 247-256. DOI |
15 | T. Yonomoto, K. Tasaka, Liquid and gas entrainment to a small break hole from a stratified two-phase region, Int. J. Multiph. Flow 17 (6) (1991) 745-765. DOI |
16 | Z. Lu, Z. Meng, N. Gu, et al., Development of correlations for liquid entrainment through a large-scale inclined branch pipe connected to the main horizontal pipe, Experimental Thermal and Fluid Science 96 (2018) 128-136. DOI |
17 | K.B. Welter, Q. Wu, Y. You, K. Abel, D. McCreary, S.M. Bajorek, S.M. Reyes, Experimentalinvestigation and theoreticalmodeling of liquid entrainmentin a horizontal tee with a vertical-up branch, Int. J. Multiph. Flow 30 (12) (2004) 1451-1484. DOI |
18 | Z. Meng, B. Dong, L. Wang, X. Fu, W. Tian, Y. Yang, G. Su, Experimental research of liquid entrainment through ADS-4 in AP1000, Ann. Nucl. Energy 72 (2014) 428-437, https://doi.org/10.1115/ICONE22-30245. DOI |