Computer simulations have been used to determine the siting and local environment of the framework iron and related Brønsted acid site in (calcined) Fe-ZSM5. Simulated FT of the Fe K-edge EXAFS from the calculated distances are in agreement with experimental data. The detailed geometry information allows us to improve on the experimental models proposed. Further calculations on the as-prepared material, containing tetrapropylammonium, are also in excellent agreement with the experimental EXAFS. The calculations show only a slight deviation of the TPA molecule from its site in silicalite. The higher shell features in the EXAFS data can be assigned to the calculated template atoms, which is contrary to a speculative model proposed from previous analysis of the experimental data.