Title :
Target chamber gas response and vaporization in a laser and a heavy ion beam IFE reactor
Author :
Peterson, R.R. ; MacFarlane, J.J. ; Wang, P.
Author_Institution :
Fusion Technol. Inst., Wisconsin Univ., Madison, WI, USA
fDate :
30 Sep-3 Oct 1991
Abstract :
The authors have investigated the target chamber designs for two IFE (inertial-confinement fusion energy) reactors (SOMBRERO and OSIRIS). The CONRAD computer code has been used to analyze certain critical aspects of these designs. Auto-neutralized transport is considered and a gas density is used that precludes protection of the first surface of the target chamber from X-rays and ions. The dominant issue in the design of the SOMBRERO laser fusion target chamber is the reradiation of absorbed target energy from the gas to the wall of the target chamber. In the OSIRIS heavy ion fusion target chamber, vaporization of material from the wall is the most important consideration. In SOMBRERO, 0.5 torr of xenon gas should allow beam transport and will protect the graphite wall vaporization by target energy. In OSIRIS, it was found that the FLIBE is vaporized and that a high peak pressure but moderate impulse shock reaches the vapor/liquid interface in the FLIBE
Keywords :
fusion reactor ignition; fusion reactor materials; fusion reactor theory and design; nuclear engineering computing; CONRAD computer code; FLIBE; OSIRIS; SOMBRERO; X-rays; absorbed target; critical aspects; first surface; gas density; gas response; graphite wall; heavy ion beam IFE reactor; high peak pressure; impulse shock; inertial-confinement fusion energy; ions; laser; material; protection; target chamber; transport; vapor/liquid interface; vaporization; Fusion reactor design; Gas lasers; Inductors; Laser beams; Laser fusion; Optical design; Optical materials; Protection; X-ray lasers; Xenon;
Conference_Titel :
Fusion Engineering, 1991. Proceedings., 14th IEEE/NPSS Symposium on
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-0132-3
DOI :
10.1109/FUSION.1991.218794
