Определение колебаний давления в газовой полости герметичных емкостей транспортно-заправочных контейнеров для ракетных топлив при температурных воздействиях

А.Н. Кирьянова, О.П. Матвеева

Инженерный журнал: наука и инновации

# 7



2016

Determination of pressure fluctuations in gas cavity

of sealed volumes of transportation-fueling containers

for propellants at temperature exposure

Bauman Moscow State Technical University, Moscow, 105005, Russia

The article justifies the possibility of ideal gas model application for determining the gas

state parameters in the gas bags of transportation-fueling container volumes. The second

virial coefficients and the estimated values of the compressibility factor for the used gas-

es are used in the model. The article presents

the technique for calculating gas-vapor

mixture pressure in a sealed volume, calculation example and advice on the practical ap-

plication of the proposed method.

Keywords:

propellant components, sealed volume, gas-vapor mixture, pressure, trans-

portation, propellant gassing, propellant quality.

REFERENCES

[1]

Vorobyev E.V., Denisov O.E., Kuznetsov V.I.

Proektirovanie transportnykh

sredstv spetsialogo naznacheniya

[Design of special purpose vehicles]. Moscow,

MADI Publ., 2012, 91 p.

[2]

GOST 31314–2006 (ISO 1496-3:1995)

Mezhgosudarstvennyy standart.

Konteynery gruzovye seriynye. Tekhnicheskie trebovaniya i metody ispytaniy.

Chast 3: Konteyner-tsisterny dlya zhidkostey,gazov i sypuchikh gruzov pod

davleniem

[Interstate standard. Serial freight containers. Specifications and test

methods. Part 3: Tank containers for liquids, gases and loose goods under

pressure]. Moscow, Russian Gosstandart Publ., 2003, 27 p.

[3]

Pavlov S.K., Chugunkov V.V.

Inzhenernyi zhurnal: nauka i innovatsii —

Engineering Journal: Science and Innovation

, 2016, no. 1 (49). DOI

10.18698/2308-6033-2016-1-1461 (accessed April 14, 2016).

[4]

Metodika raschetno-eksperimentalnogo opredeleniya vybrosov zagryaznyaushchikh

veshchestv v atmosferu za schet ispareniya iz emkostey khraneniya nefteproduktov

[Computational and experimental methods of determination of pollutant emissions

into the atmosphere by evaporation from petrochemical storage tanks] Krasnodar,

1996. Available at:

http://www.infosait.ru/norma_doc/47/47365/

(accessed March 24, 2016).

[5]

Sarner S.F.

Propellant Chemistry.

New York, Reinhold Publ., 1966, 417 p. [In

Russ.: Sarner S. Khimiya raketnykh topliv. Moscow, Mir Publ., 1969, 488 p.].

[6]

Trofimova T.I.

Kurs fiziki

[Physics course]. Moscow, Vysshaya shkola Publ.,

1990, 478 p.

[7]

Eremin V.V., Kargov S.I., Kuzmenko N.E.

Realnye gazy

[Real Gases].

Poltorak O.M., ed. Moscow, 1998. Available at:

http://www.chem.msu.su/rus/teaching/realgases/

(accessed March 20, 2016).

[8]

Hirschfelder J.O., Curtiss Ch. F., Bird R.B.

Molecular Theory of Gases and

Liquids

. New York, Wiley Publ., London, Chapman & Hall Publ., 1954, 1219 p.

[In Russ.: Hirschfelder J.O., Curtiss Ch. F., Bird R.B. Molekulyarnaya teoriya

gazov i zhidkostey. Moscow, Inostrannaya Literatura Publ., 1961, 929 p.].

[9]

Zubarev V.N., Kozlov A.D., Kuznetsov V.M., Sergeeva L.V., Spiridonov G.A.

Teplofizicheskie svoystva tekhnicheski vazhnykh gazov pri vysokikh

temperaturakh i davleniyakh. Spravochnik

[Thermophysical properties of