Numerical investigation of the flow of combustion products containing high-dispersive aluminum powder in the solid-fuel rocket engine nozzles | Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mekhanika – Tomsk State University Journal of Mathematics and Mechanics. 2016. № 2(40).

Numerical investigation of the flow of combustion products containing high-dispersive aluminum powder in the solid-fuel rocket engine nozzles

The work is devoted to the numerical investigation of the flow of metalized fuel combustion products in the rocket engine nozzle cluster. The system of equations for the gas-droplet environment is written in the model of interpenetrating multispeed and multitemperature continua. The condensed phase is represented by an ensemble of polydisperse liquid alumina particles. Coagulation and fragmentation are taken into account due to the interaction both with each other and with the gas. The description of condensate particle interaction is based on the continuous approach of variation in the size distribution function. The dependence of two-phase losses of the engine on the size of aluminum oxide particles due to the nonequilibrium of the flow at the nozzle entrance is shown. Results of the numerical calculation of the quasi-one-dimensional steady flow of aluminized fuel combustion products in the profiled solid-fuel rocket engine nozzle are presented. Analysis of the calculation data suggests that the use of high-dispersed aluminum powder in composite solid propellants increases the specific impulse of the engine as compared to previously used powders.

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Keywords

двухфазное течение, функция распределения частиц по размерам, ультрадисперсные частицы, коагуляция и дробление частиц, two-phase flow, particle size distribution function, polydisperse ensemble, coagulation and fragmentation of particles

Authors

Name	Organization	E-mail
D'yachenko Nikolay Nikolaevich	Tomsk State University	Dr.Dyachenko@gmail.com
D'yachenko Lyudmila Ivanovna	Tomsk State University	Dr.Dyachenko@gmail.com
Gurova Valeriya Sergeevna	Tomsk State University	valery0995@mail.ru
Sineokaya Sofiya Aleksandrovna	Tomsk State University	sophia1994@mail.ru

Всего: 4

References

Васенин И.М., Архипов В.А., Бутов В.Г., Глазунов А.А., Трофимов В. Ф. Газовая динамика двухфазных течений в соплах. Томск: Изд-во ТГУ, 1986. 262 с.

Шрайбер А.А. Многофазные полидисперсные течения с переменным фракционным составом дискретных включений // Итоги науки и техн. Комплексные и специальные разделы механики. М.: ВИНИТИ, 1988. Т. 3. С. 3-80.

Алемасов В.Е., Дрегалин АФ., Тишин А.П. Теория ракетных двигателей. М.: Машиностроение, 1989. 464 с.

Пирумов У.Г.,РосляковГ.С. Газовая динамика сопел. М.: Наука, 1990. 366 с.

Стернин Л.Е., Шрайбер А.А. Многофазные течения газа с частицами. М.: Машиностроение, 1994. 320 с.

Де Лука Л.Т., Галфетти Л., Северини Ф. и др. Горение смесевых твердых топлив с на-норазмерным алюминием // Физика горения и взрыва. 2005. Т. 41. № 6. С. 80-94.

Ворожцов А.Б., Глазунов А.А., Де Лука Л.Т. и др. Влияние применения наноалюминия на газодинамику высокоэнергетических установок // Вестник Томского государственного университета. Математика и механика. 2014. № 2(28). С. 45-57.