1 |
Korea Aerospace Research Institute, "A Master Plan of KSLV-II Development Program," 2010
|
2 |
Korea Aerospace Research Institute, "A Basic Design Results of Launch Complex for KSLV-II," 2014
|
3 |
Sunil Kang, Joongwon Nam, "Introduction of Ground Support Equipment of Launch Complex for KSLV-I NARO Launch Operations," Proceeding of KSAS Fall Conference, pp. 1427-1431, 2013
|
4 |
Korea Aerospace Research Institute, "System Design Review of KSLV-II," 2013
|
5 |
Korea Aerospace Research Institute, "Design Data for Launch Pad for KSLV-I," Critical Design Package for KSLS, 2007
|
6 |
Sunil Kang, "Numerical Study of the effects of water spray on the Rocket Exhaust Plume," Thesis of Ph. D., Chungnam National University, 2012
|
7 |
Yoonwan Moon, "A Study of Water Injection Effect Influencing Plume in 75tonf 1st Stage Liquid Propellant Rocket Engine Ground Test : Core Injection Type,", KARI-RET-TM-2010-003, Korea Aerospace Research Institute, 2010
|
8 |
Lays E., "Design Handbook for Protection of Launch Complexes from Solid Propellant Exhaust," Martin-CR-66-11, NASA CR-76058, 1966
|
9 |
Evans R.L., Sparks O.L., "Launch Deflector Design Criteria and their Application to Saturn C-1 Deflector," NASA TN D-1275, 1963
|
10 |
Seungkyung Park, Bonggeun Choi, Kyungtaek Yoon, Yoocheol Woo, Daesung Lee, Sunil Kang, "Three Dimensional Supersonic Jet Flow Analysis Impinging on Flame Deflector Surface," Proceeding of KSME Spring Conference, pp. 494-498, 2001
|
11 |
Sunil Kang, Seungho Ra, et. al. "Preliminary Study for Launch Pad Flame Deflector Based on KSLV-I Flight Test Data," Korea Aerospace Research Institute, 2010
|
12 |
Sunil Kang, Jungwon Nam, Hwanil Huh, "A Study for Rocket Exhaust Flow Cooling due to the Central Spray Type Water Injection," Aerospace Engineering and Technology No. 12 Vol. 1, pp. 163-172, 2013
|
13 |
Philips J.D., "Flame Deflector Design, Standard For," KSC-STD-Z-0012B, 1980
|