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한국추진공학회지 = Journal of the Korean Society of Propulsion Engineers, v.24 no.5, 2020년, pp.91 - 102
최준섭 (Department of Aerospace Engineering, Graduate School of Chungnam National University) , 허환일 (Department of Aerospace Engineering, Chungnam National University) , 기원근 (Department of Aerospace Engineering, Graduate School of Chungnam National University)
AI-Helper
Recently, a new space era has evolved in which commercial companies' led space development has begun. In this era, commercial companies actively participate in space development as the size of the small satellite market and small launch vehicle market is expanding. Through space development, develop...
Weinzierl, M., "Space, the Final Frontier," Journal of Economic Perspectives, Vol. 32, No. 2, p. 173, 2018.
"Bryce Space and Technology," retrieved 25 Nov. 2019 from https://www.sia.org/wp-content/uploads/2017/07/SIA-SSIR-2017.
"Small-satellite Launch Service Revenues to Pass $69 Billion by 2030," retrieved 25 Nov. 2019 from https://ww2.frost.com/news/press-releases/aerospace-defense/small-satellite-launch-service-revenues-to-pass-69-billion-by-2030.
Niederstrasser, C., "Small Launch Vehicles-A 2018 State of the Industry Survey," 32nd Annual AIAA/USU Conference on Small Satellites, Lagan, Utah, U.S.A., SSC18-IX-01, Aug. 2018.
Federal Aviation Administration, "The Annual Compendium of Commercial Space Transportation:2018," 2018.
"Spain's PLD Space Receives $2.4 Million Grant for Smallsat Launchers," retrieved 27 Jul. 2020 from https://spacenews.com/spains-pld-space-receives-2-4-million-grant-for-smallsat-launcher.
"Firefly Alpha," retrieved 27 Jul. 2020 from https://firefly.com/launch-alpha.
Kwak, H.D., Kwon, S. and Choi, C.H., "Performance Assessment of Electrically Driven Pump-fed LOX-kerosene Cycle Rocket Engine: Comparison with Gas Generator Cycle," Aerospace Science and Technology, Vol. 77, pp. 67-82, 2018.
"Electric-pump-fed Engine," retrieved 25 Nov. 2019 from https://en.wikipedia.org/wiki/Electric-pump-fed_engine.
"Rocket Lab Sets Date for First Commercial Launch of Its Electron Rocket," retrieved 25 Nov. 2019 from https://www.theverge.com/2018/4/4/17195686/rocket-lab-electron-commercial-launch-its-business-time-new-zealand.
"Rocket Engine," retrieved 25 Nov. 2019 https://en.wikipedia.org/wiki/Rutherford_(rocket_engine).
Lee, J., Roh, T.S., Huh, H. and Lee, H.J., "Performance Analysis and Mass Estimation of a Small-Sized Liquid Rocket Engine with Electric-Pump Cycle," International Journal of aeronautical and Space Sciences, Accepted, 2020.
Ki, W., Hwang, K.Y., Lee, J., Choi, J. and Huh, H., "A Study on Water Flow Test for Simulating Propellant Supply System of Electoric Pump Cycle," Trans. Korean Soc. Mech. Eng. B, submitted, 2020.
Lee, J., Ki, W., Huh, H., Roh, T.S. and Lee, H.J., "Modeling and Validation of a Liquid Propellant Supply System in Steady State," Journal of the Korean Society of Propulsion Engineers, submitted, 2020.
Talik, J., Luce, J., Froelich, J.C., Shang, M., Rasheed, R.M. and Roland, J.S., "Electric Propellant Feed-System for Amateur Class High Altitude Sounding Rockets," AIAA SPACE and Astronautics Forum and Exposition, Orlando, F.L., U.S.A., AIAA 2017-5132, Sep. 2017.
"Rocket Lab Unveils Battery-Powered Turb-omachinery, "retrieved 4 Feb. 2020 from https://aviationweek.com/space/rocket-labunveils-battery-powered-turbomachinery.
Waxenegger-Wilfing, G., Hahn, R.H.S. and Deeken, J., "Studies on Electric Pump-fed Liquid Rocket Engines for Micro-launchers," Space Propulsion, Seville, Spain, SP2018_00452, Jul. 2018.
Shimagaki, M., Nagao, N., Kawasaki, S., Kimura, T., Hashimoto, T., Takada, S., Tomita, T., Ikeda, H., Tanio, Y., Barada, T., Matake, K., Watanabe, H. and Honda, S., "Feasibility of Rocket Engine Propellant Supply Electric Pump," JAXA-RM-18-014, 2019.
Budde-Meiwes, H., Drillkens, J., Lunz, B., Muennix, J., Rothgang, S., Kowal, J. and Sauer, D.U., "A Review of Current Automotive Battery Technology and Future Prospects, "Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, Vol. 227, No. 5, pp. 761-776, 2013.
Lim, H.Y., "Development Trend of Low Cost Rocket Propulsion," 51th KSPE Fall Conference, Busan, Korea, pp. 533-537, Dec. 2018.
Gradl, P.R., Greene, S.E., Protz, C., Bullard, B., Buzzell, J., Garcia, C., Wood, J., Cooper, K., Hulka, J. and Osborne, R., "Additive Manufacturing of Liquid Rocket Engine Combustion Devices: A Summary of Process Developments and Hot-Fire Testing Results," 2018 Joint Propulsion Conference, Cincinnati, Ohio, U.S.A., AIAA 2018-4625, Jul. 2018.
Gradl, P.R. and Protz, C., "Additive Manufacturing and Hot-fire Testing of Bimetallic GRCop-84 and C-18150 Channel-Cooled Combustion Chambers using Powder Bed Fusion and Inconel 625 Hybrid Directed Energy Deposition," AIAA Propulsion and Energy 2019 Forum, Indianapolis, IN, U.S.A., AIAA 2019-4390, Aug. 2019.
"Cladding and Freeform Deposition for Coolant Channel Closeout," retrieved 25 Nov. 2019 from https://technology.nasa.gov/patent/MFS-TOPS-81.
Mehr, E., Ellis, T. and Noone, J., "Real-time Adaptive Control of Additive Manufacturing Processes Using Machine Learning," US10234848B2, 19 Mar. 2019.
Rebrov, S.G., Golubev, V.A. and Golikov, A.N., "Laser Ignition of Oxygen-Kerosene Fuel in Rocket Technique: from Igniters to Rocket Engines," TRUDY MAI, No. 95, 2017.
Rebrov, S.G., Golubev, V.A. and Golikov, A.N., "Chamber of Liquid-Propellant Rocket Engine or Gas Generator with Laser Ignition Device of Fuel Components, and Its Startup Method," RU2468240C1, 27 Nov. 2012.
Rebrov, S.G., Golikov, A.N., Golubev, V.A., Molchanov, A.M. and Yakhina, G.R., "Numerical Simulation of Mixing Process in Combustion Chamber for Laser Ignition with Hydrogen-Oxygen and Methane-Oxygen Propellants," TRUDY MAI, No. 69, 2013.
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