1 |
Ki-Yong Choi, Hyun-Sik Park, Seok Cho, Kyoung-Ho Kang, Nam-Hyun Shoi, Dae-Hun Kim, Choon-Kyung Park, Yeon-Sik Kim, Won-Pil Baek, Experimental simulation of a direct vessel injection line break of the Apr1400 with the atlas, Nuclear Engineering and Technology 41 (5) (2009) 655-676.
DOI
|
2 |
Vadikkeettil1 Yugesh, Ravi Ganesh, Ramachandran Kandasamy, Vidhi Goyal, Kailsha Chandra Meher, Influence of the shroud gas injection configuration on the characteristics of a DC non-transferred arc plasma torch, Plasma Chem. Plasma Process. 38 (4) (2018) 759-770.
DOI
|
3 |
M.R.O. Panao, A.L.N. Moreira, Flow characteristics of spray impingement in PFI injection systems, Exp. Fluid (39) (2005) 364-374.
|
4 |
A.J. Thornton, K.J. Gibson, J.R. Harrison, M. Lehnen, R. Martin, A. Kirk, the MAST Team, Characterization of disruption mitigation via massive gas injection on MAST, Plasma Phys. Contr. Fusion 54 (2012) 1-14.
|
5 |
K.H. Burrell, Fast gas Injection system for plasma physics experiments, Rev. Sci. Instrum. 55 (6) (1984) 934-993.
DOI
|
6 |
A. Beune, J.G.M. Kuerten, M.P.C. van Heumen, CFD analysis with fluidestructure interaction of opening high-pressure safety valves, Comput. Fluids (64) (2012) 108-116.
|
7 |
Adrian Constantin Clenci, Victor Iorga-Siman, Michael Deligant, Podevin Pierre, Georges Descombes, Rodica Niculescu, A CFD (computational fluid dynamics) study on the effects of operating an engine with low intake valve lift at idle corresponding speed, Energy (4) (2014) 1-16.
|
8 |
Craig Warren Gustafson, The Fluid Mechanics of Hydraulic Fracturing, University of Illinois at Urbana Champaign, 1987, p. 322.
|
9 |
SwagelokdTM Swagelok Company. Sample Cylinders, Accessories, and Outage Tubes[Z], Swagelok Company, U.S.A, 2013.
|
10 |
VAT, Inc, Vat Vacuum Valves 2016[Z], VAT Inc, U.S.A, 2016.
|
11 |
S.C. Bates, K.H. Burrell, Fast hydrogen gas injection system for plasma physics experiments, Rev. Sci. Instrum. 55 (6) (1984) 934-993.
DOI
|
12 |
Binghui Xu, Pneumatic manual[M], Shanghai Science and Technology Press, China, 2005.
|
13 |
Frank M. White, Fluid Mechanics[M], University of Rhode Island, New York, 1997.
|
14 |
Xiaoli Ren, Jia Zhai, Ge Ren, Numerical study of transient flow in the preliminary design of fusion power shutdown system, Fusion Eng. Des. 129 (2018) 214-220.
DOI
|
15 |
G. Pautasso, M. Bernert, M. Dibon, B. Duval, R. Dux, E. Fable, J.C. Fuchs, G.D. Conway, L. Giannone, A. Gude, A. Herrmann, M. Hoelzl, P.J. McCarthy, A. Mlynek, M. Maraschek, E. Nardon, G. Papp, S. Potzel, C. Rapson, B. Sieglin, W. Suttrop, W. Treutterer, The ASDEX Upgrade team and the EURO fusion MST1 team. Disruption mitigation by injection of small quantities of noble gas in ASDEX upgrade, Plasma Phys. Contr. Fusion 59 (2017) 1-11.
|
16 |
R.A. Langley, J.W. Halliwell, G.R. Dyer, J.L. Yarber, Gas injection system for the advanced toroidal facility, J. Vac. Sci. Technol. 7 (3) (1989) 2423-2426.
DOI
|
17 |
D.G. Whyte, T.C. Jernigan, D.A. Humphreys, A.W. Hyatt, C.J. Lasnier, P.B. Parks, T.E. Evans, M.N. Rosenbluth, P.L. Taylor, A.G. Kellman, D.S. Gray, E.M. Hollmann, S.K. Combs, Mitigation of Tokamak disruptions using highpressure gas injection, Physical Review Letters 89 (5) (2002) 1-4.
|
18 |
Xiuquan Cao, Deping Yu, Yong Xiang, Jin Yao, Influence of the gas injection angle on the jet characteristics of a non-transferred DC plasma torch, Plasma Chem. Plasma Process. (36) (2016) 881-889.
|
19 |
Min Jae Kim, Tong Seop Kim, Feasibility study on the influence of steam injection in the compressed air energy storage system, Energy (141) (2017) 239-249.
|
20 |
Toufik Boushaki, Jean-Charles Sautet, Characteristics of flow from an oxy-fuel burner with separated jets: influence of jet injection angle, Exp. Fluid (48) (2010) 1095-1108.
|