Title of article :
Investigation of the reflector temperatures of a space craft thermionic reactor
Author/Authors :
Sozen، Adnan نويسنده , , Sahin، Sumer نويسنده ,
Issue Information :
دوهفته نامه با شماره پیاپی سال 1999
Pages :
-32
From page :
33
To page :
0
Abstract :
In a fast incore thermionic spacecraft reactor for nuclear propulsion, the temperature rise due to the neutron heating in the reflector control drums is investigated. The reactor is fuelled with (U-Ta)C, consisting of 80UC-20TaC with a sinter density of 80% and controlled with the help of rotating drums imbedded into the beryllium reflector. The control drums contain natural B4C strips (with 20% 10B and 80% 11B) and produce nuclear heat via neutron absorption in 10B. The neutronic analysis has been conducted in S16-P3 and S8-P3 approximation with the help of oneand two-dimensional neutron transport codes ANISN and DORT, respectively. Calculations are conducted for a reactor with a core radius of 22 cm and core height of 35 cm leading to ~ 50 kW(el) in power phase. Reflector drums with 100%) natural B4C in form of strips (drum diameter = 13.5 cm, strip width = 5 mm) at the outer periphery of the radial reflector of 16 cm thickness would make possible reactivity changes of (delta)k(eff,max)= 10.7% without a significant distortion of the fission power profile during all phases of the space mission. A reduction of the B4C in the strips to 20 and 10% would still allow a reactivity change of (delta)k(eff,max)=8.4 and 7.7%, respectively, amply sufficient for an effective control of a fast reactor during all phases of the space mission. By a nuclear thermal thrust around F= 5000 N and a specific impulse of 670 s^-1 at an hydrogen exit temperature around 1900 K, the maximum temperature in the drums rises to 1023 K, with 100% natural B^C content in the strips, far below the melting point of beryllium. The maximum drum temperature is depressed to 663 and 519 KL, with 20 and 10% natural B4C content in the strips, respectively. © 1999 Elsevier Science S.A. All rights reserved.
Keywords :
Fatigue monitoring , Pressurized water reactors , Transient data collection
Journal title :
Nuclear Engineering and Design
Serial Year :
1999
Journal title :
Nuclear Engineering and Design
Record number :
14256
Link To Document :
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