| Title: | Численное моделирование горения капель смеси керосин/изопропиловый спирт в камере сгорания авиационного ГТД |
| Authors: | Эрнандэс Моралес М. Вильямовский К. А. Цапенков К. А. Зубрилин И. А. |
| Keywords: | aircraft gas turbine engines aviation kerosene biofuels combustion chambers combustion of multicomponent droplets evaporation time isopropyl alcohol nitrogen oxide emission indices numerical modeling SU2 surrogate авиационные газотурбинные двигатели авиационный керосин биотопливо время испарения горение многокомпонентных капель изопропиловый спирт индексы эмиссии оксидов азота камеры сгорания суррогат SU2 численное моделирование |
| Issue Date: | 2025 |
| Citation: | Численное моделирование горения капель смеси керосин/изопропиловый спирт в камере сгорания авиационного ГТД = Numerical simulation of the combustion of kerosene/isopropyl alcohol droplets in the combustion chamber of an aircraft gas turbine engine / М. Эрнандэс Моралес, К. А. Вильямовский, К. А. Цапенков, И. А. Зубрилин // Перспективы развития двигателестроения : материалы междунар. науч.-техн. конф. им. Н. Д. Кузнецова (18–20 июня 2025 г.) / Самар. нац. исслед. ун-т им. С. П. Королева (Самар. ун-т) ; редкол.: Е. В. Шахматов, А. И. Ермаков. - Самара : Изд-во Самар. ун-та, 2025. - С. 594-596. |
| Abstract: | This work presents the results of numerical modeling of combustion of kerosene/isopropyl alcohol droplets in the combustion chamber of an aircraft gas turbine engine. The numerical calculations of the combustion processes were performed using ANSYS Fluent. Aviation kerosene was modeled using a four-component surrogate, SU2, which was developed in the Engineering center of Samara University. One operation mode and three proportions of isopropyl alcohol additive were studied. The combustion processes were modeled using the Partially Premixed Combustion model, which includes the Flamelet Generated Manifold approach and the compilation of Probability Density Function tables. Fuel atomization by the pressure-swirl atomizer was modeled using the Discrete Phase Model. The addition of isopropyl alcohol to the mixture leads to a decrease in the temperature in the combustion chamber, which in turn leads to a decrease in NOx emissions by an average of 50%. The average droplet evaporation time first decreases by 50% with |
| URI: | http://repo.ssau.ru/jspui/handle/123456789/43565 |
| Appears in Collections: | Перспективы развития двигателестроения |
Files in This Item:
| File | Size | Format | |
|---|---|---|---|
| 978-5-7883-2191-2_2025-594-596.pdf | 387.94 kB | Adobe PDF | View/Open |
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