The production of zinc by thermal dissociation of zinc oxide - Solar chemical reactor design

We describe the design, fabrication, and preliminary test of a novel-solar chemical reactor for conducting the thermal dissociation of ZnO into zinc a nd oxygen at above 2000 K. The reactor configuration features a windowed ro tating cavity-receiver lined with ZnO particles that are held by centrifuga l force. With this arrangement, ZnO is directly exposed to high-flux solar irradiation and serves simultaneously the functions of radiant absorber, th ermal insulator, and chemical reactant. The reactor design respects the con straints imposed by both the chemistry of the decomposition reaction and th e transitory nature of solar energy. A 10 kW prototype reactor, made from c onventional reliable materials, was tested at PSI's high-flux solar furnace and exposed to peak solar radiation fluxes exceeding 3500 kW m(-2). The re actor system proved to have low thermal inertia and resistance to thermal s hocks. (C) 2000 Elsevier Science Ltd. All rights reserved.