Мощные энергодвигательные установки космического назначения с газотурбинным преобразованием энергии по замкнутому циклу Брайтона и особенности их экспериментальной отработки

Д.И. Андрианов, Л.Э. Захаренков, А.В. Каревский, А.В. Попов, С.А. Попов и др.

Инженерный журнал: наука и инновации

# 7



2016

Space power propulsion systems with gas turbine power

conversion system of closed Brayton cycle of high power

and characteristic features of their experimental testing

A.V. Popov, S.A. Popov, A.V. Semenkin, A.E. Solodukhin,

D.N. Terekhov,

S.Yu

. Shtonda

State Research Centre Federal State Unitary Enterprise

Keldysh Research Centre, Moscow, 125438, Russia

The desire to use power propulsion systems (PPS) of high power in space exploration has

existed since the earliest stages of astronautics development and, over the time the need

for their creation is becoming more urgent. By means of high power PPS, it becomes

possible to solve a large number of transport, transport and energy, and energy problems

for the benefit of economy, science and global security. The creation of such PPS is ex-

tremely challenging and requires a thorough development of individual elements of the

installation, as well as joint tests of different systems on the ground test bench and in the

outer space during the flight test. The paper includes data on currently actual projects

which are being conducted in the world in the field of high power nuclear PPS. The arti-

cle also gives general information about the basic PPS subsystems, composition and re-

quirements for the test bench base for developing the key PPS elements. Moreover, we

examine potential composition and appearance of the test bench for powerful gas turbine

converters, operating in a closed Brayton cycle.

Keywords

: outer space, Brayton cycle, power propulsion system, gas turbine conversion

system, test bench base.

REFERENCES

[1]

Yarygin V.I.

Izvestiya Vysshikh Uchebnykh Zavedeniy. Yadernaya energetika —

Proceedings of Higher Education Institutions. Nuclear Power Engineering

, 2013,

no. 2, pp. 5–20.

[2]

Akimov V.N., Koroteev A.A., Koroteev A.S.

Izvestiya RAN. Energetika —

Proceedings of the Russian Academy of Sciences. Power Engineering

, 2012,

no. 1, pp. 3–11.

[3]

Grishin S.D., Zakharov Yu.A., Odolevskiy V.K.

Proektirovanie kosmicheskikh

apparatov s dvigateliami maloy tyagi

[Design of spacecraft thrusters]. Moscow,

Mashinostroenie Publ., 1990.

[4]

Legostaev V.P., Lopota V.A., Sinyavskiy V.V.

Kosmicheskaya tekhnika i

tekhnologii — Space Engineering and Technology

, 2013, no.1, pp. 6–17.

[5]

Jansen F., Semenkin A., Bauer W., Worms J.-C., Detsis E., Cliquet E.,

Masson F., Ruault J.-M., Gaia E., Cristina T.M., Tinsley T., Hodgson Z.

MEGAHIT* Roadmap: Applications for Nuclear Electric Propulsion. RGEP,

Dresden, 2014.

[6]

Konyukhov G.V., Koroteev A.A., Poluektov V.P.

Polet — Flight

, 2001, no. 4,

pp. 26–32.

[7]

Bondareva N.V., Glukhov L.M., Koroteev A.A., Krasovskiy V.G.,

Kustov L.M., Nagel Yu.A., Safronov A.A., Filatov N.I., Chernikova E.A.

Izvestiya RAN. Energetika — Proceedings of the Russian Academy of Sciences.

Power Engineering

, 2015, no. 4, pp. 130–142.