This study examines the use of wood reburning for NOx reduction in a cyclone-fired boiler. Reburning is an in-furnace NOx control technology that uses fuel injected above the main firing system to reduce NO formed in the main heat release zone. Bench- and pilot-scale work done over the past several years suggests that NOx reductions up to sixty percent are possible using reburning under the right conditions. The practical implementation of reburning technology depends upon the ability to contact the reburning fuel with NO formed in the cyclone barrel at the optimum stoichiometry for he maximum time. Thus, reburning effectiveness in practical systems is determined by the performance of he mixing system. This paper describe the results of a computer modeling study of the TVA Alien Station Unit No. 2 to evaluate various reburning fuel injection and overfire air injection designs and estimate he NOx reduction potential using wood as a reburning fuel. Results of this study showed the best mixing was obtained using opposed fired rebuming injectors located as close to the cyclone barrels as possible with opposed-wall overfire air injectors at as high a velocity as pressure drop constraints allow. Under these conditions, NOx reductions of similar to 45% are expected. When the wood carrier air is replaced by fuel gas, the expected NOx reduction increases to similar to 55%. Further NOx reduction was possible if the stoichiometric constraints in the reburning zone could be relaxed to allow deeper staging.