References
- Betts, E. and Frederick, R. “A Historical Systems Study of Liquid Rocket Engine Throttling Capabilities.” 46th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, AIAA 2010-6541. Nashville, TN, 2010.
- Casiano, M.J., Hulka, J.R., and Yang, V. “Liquid-Propellant Rocket Engine Throttling: A Comprehensive Review”. Journal of Propulsion and Power Vol. 26 No. 5 (2010), pp. 897–923.
- Mena, J., Ingle, M., Shirsat, V., and Choudhuri, A. “An Investigation of a Cavitating Venturi Flow Control Feature in a Cryogenic Propellant Delivery System”. Flow Measurement and Instrumentation Vol. 41 (2015): pp. 97–103.
- Ghassemi, H. and Fasih, H.F. “Application of Small Size Cavitating Venturi as a Flow Controller and Flow Meter”. Flow Measurement and Instrumentation Vol. 22 (2011): pp. 406–412.
- Harvey, D.W. “Throttling Venturi Valves for Liquid Rocket Engines”. AIAA 6th Propulsion Joint Specialist Conference, AIAA Paper No. 70-703. San Diego, CA, 1970.
- Tian, H., Zeng, P., Yu, N., and Cai, G. “Application of Variable Area Cavitating Venturi as a Dynamic Flow Controller”. Flow Measurement and Instrumentation Vol. 38 (2014): pp. 21–26.
- Cieśliński, D., Przybut, A., and Gut, Z., “Development of Throttling Capabilities of Liquid Rocket Engines Utilizing High-Test Peroxide as Oxidizer”. Space Propulsion 2022, Conference Paper No. 260. Estoril, Portugal, 2022.
- Surmacz, P. and Rarata, G. “Nadtlenek wodoru klasy HTP jako uniwersalne medium napędowe oraz utleniacz”. Prace Instytutu Lotnictwa Vol. 202 (2009): pp. 125–158.
- Florczuk, W., Kublik, D., and Sobczak, K. “Rozwój ekologicznych silników rakietowych na ciekłe materiały pędne”. Prace Instytutu Lotnictwa Vol. 234 (2014): pp. 62–72.
- Reader-Harris, M. Orifice Plates and Venturi Tubes. Springer, Glasgow, UK. (2015).
- Reader-Harris, M.J., Brunton, W.C., Gibson, J.J., Hodges, D., and Nicholson, I.G. “Discharge Coefficients of Venturi Tubes with Standard and Non-Standard Convergent Angles”. Flow Measurement and Instrumentation Vol. 12 (2001): pp. 135–145.
- Jain, T., Carpenter, J., and Saharan, V.K. “CFD Analysis and Optimization of Circular and Slit Venturi for Cavitational Activity”. Journal of Material Science and Mechanical Engineering Vol. 1 No. 1 (2014): pp. 28–33.
- Ebrahimi, B., He, G., Tang, Y., Franchek, M., Liu, D., Pickett, J., Springett, F., and Franklin, D., “Characterization of High-Pressure Cavitating Flow through a Thick Orifice Plate in a Pipe of constant Cross Section”. International Journal of Thermal Sciences Vol. 114 (2017): pp. 229–240.
- Niedźwiedzka, A. and Sobieski, W. “Analytical Analysis of Cavitating Flow in Venturi Tube on the Basis of Experimental Data”. Technical Sciences/University of Warmia and Mazury in Olsztyn Vol. 19 (2016): pp. 215–229.