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Computational realization of popping impinging sprays of hypergolic bipropellants by a Eulerian-Lagrangian approach

Jinyang Wang, Kai Sun, Tianyou Wang and Peng Zhang

Energy, 2025, vol. 317, issue C

Abstract: This work adopts a Eulerian-Lagrangian approach to numerically simulate the spray impingement of MMH (Monomethylhydrazine)/NTO (Nitrogen tetroxide), which are prevalent rocket engine bipropellants for deep space missions and satellite orbital maneuvers. The emphasis of this work is to computationally realize the popping phenomenon and to study its parametric dependence on gas- and liquid-phase reaction rates. The liquid-phase reaction of MMH/NTO is realized based on the extended spray equation, incorporating the additional independent variable, propellant mass fraction, to account for the mixing of droplets. The spray popping can be computationally reproduced over wide ranges of Damköhler numbers for both gas- and liquid-phase reactions. Furthermore, the computational results have been validated through qualitative comparison with experimental images and quantitative comparison with experimental frequencies. The present results verify our hypothesis that the heat release from the liquid-phase reaction enhances the evaporation of MMH and NTO so that the intense gas-phase reaction zone around the spray impingement point periodically separates the MMH and NTO impinging sprays to cause the popping phenomenon. Moreover, it was found that the popping phenomenon can be suppressed by reducing the Damköhler numbers of liquid-phase reactions and therefore to suppress the evaporation of the propellants. This work is believed to provide valuable understanding for avoiding the off-design popping phenomenon that may reduce combustion efficiency and increase the risk of combustion instability in rocket engines.

Keywords: Hypergolic bipropellants; Monomethylhydrazine; Nitrogen tetroxide; Spray equation; Popping phenomenon (search for similar items in EconPapers)
Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:eee:energy:v:317:y:2025:i:c:s0360544225003676

DOI: 10.1016/j.energy.2025.134725

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