A Russian rocket engine (RD-110 with LOX-kerosene) consists of four thrust chambers supplied by a single turbopump. The exhaust from the turbine of the turbopump then is ducted to four vernier nozzles (which can be rotated to provide some control of the flight path). Using the information below, determine the thrust and mass flow rate of the four vernier gas nozzles. For individual thrust chambers (vacuum): F= 73.14 kN, c = 3279 m/sec Overall engine with verniers (vacuum): F= 297.93 kN, c = 3197 m/sec.

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nuhulawal20 nuhulawal20 · Answer 1 · 2021-02-02T03:55:44+01:00

Answer:

- Vernier thrust is 5.37 kN

- mass flow rate of the four Vernier gas nozzles is 0.4048 kg/s

Explanation:

Given that;

For individual thrust chambers (vacuum);

Fc = 73.14 kN , Cc = 3279 m/sec

For Overall engine with Vernier (vacuum);

Foa = 297.93 kN = , Coa = 3197 m/sec.

- determine the Vernier thrust

Vernier thrust Fv = Foa - ( 4 × Fc )

Vernier thrust Fv = 297.93 - ( 4 × 73.14)

Vernier thrust Fv = 297.93 - 292.56

Vernier thrust Fv = 5.37 kN

Therefore, Vernier thrust is 5.37 kN

-

Vernier mass flow rate;

we know that

[tex]Co_{a}[/tex] = Fc + Fv / mc + mv

mv = Foa/Coa - Fc/Cc

we convert kilonewton to kilograms

1 kn = 102 kg

Fc = 73.14 kN = 73.14 × 102 = 7460.28 kg

Foa = 297.93 kN = 297.93 × 102 = 30388.86 kg

we substitute

mv = (30388.86 / 3197) - (( 4 × 7460.28) / 3279)

mv = 9.5054 - 9.1006

mv = 0.4048 kg/s

Therefore, mass flow rate of the four Vernier gas nozzles is 0.4048 kg/s