The Conceptual Design Activity (CDA) for the International Fusion Materials
Irradiation Facility (IFMIF) has been conducted. For the IFMIF Target Faci
lity, the conceptual designs of the following two main components have been
performed. The design concept of IFMIF utilizes a high energy deuteron bea
m of 30-40 MeV and total current of 250 mA, impinging on a flowing lithium
jet to produce high energy neutrons for irradiation of candidate fusion mat
erials. (1) The target assembly : The kinetic energy of the deuteron beam i
s deposited on a Li-jet target and neutrons are produced through the d-Li s
tripping reaction in this target. The assembly is designed to get a stable
lithium jet and to prevent the onset of lithium boiling. For 40-MeV deutero
n beam (total current of 250 mA) and a beam footprint of 5 x 20 cm(2) lithi
um jet dimensions are designed to be 2.5 cm thick and 26 cm wide. The lithi
um jet parameters are given. (2) Lithium loop: The loop circulates the lith
ium to and from the target assembly and removes the heat deposited by the d
euteron beam containing systems for maintaining the high purity of the lith
ium required for radiological safety and to minimize corrosion. The maximum
lithium flow rate is 130 Vs and the total lithium inventory is about 21 m(
3). The IFMIF policy requires that the lithium loop system be designed to g
uarantee no combustion of lithium in the event of a lithium leak. This can
be achieved by use of multiple confinement of the lithium carrying componen
ts. The radioactive. waste generated by the Target Facilities is estimated.
(C) 1998 Elsevier Science B.V. All rights reserved.