In this work, a study of the deactivation and reuse of USY zeolite for the pyrolysis of polyethylene has been carried out in a batch reactor at 500 degrees C. From the different tested zeolite/plastic ratios, 1/10 is the optimal ratio which allows giving rise to a liquid product free of wax. Regeneration was established by heating at 500 degrees C for 3 h coked zeolite in presence of air. The liquid yield begins to increase from the llth cycle of regeneration until reaching a maximum at the 14th cycle showing a lost in the zeolite activity producing a viscous product. The liquid fraction derived from the first eight cycles was a mixture of C-4-C-27 compounds with a maximum C-5-C-7 fraction. In the 14th cycle of regeneration, compounds having higher carbon number were obtained and the yield of linear compounds increases up to 29%. To explain the relative activity of the regenerated zeolite, the textural properties and the XRD patterns results of the zeolite recovered after the let and 14th cycles have been compared with those obtained with fresh catalyst. The study showed that after 14 cycles of regeneration, the zeolite is still active but its activity level has decreased.