As the boiling water reactors age, incidents of intergranular stress corrosion cracking become more prevailing than ever. The technique of zinc addition is able to enhance the exchange of zinc and cobalt on the oxide layer of structural component surfaces. This may thus alter the structure and property of the oxide and result in a shift in corrosion potential. In the current study, surface analyses were carried out to examine the structure of the oxide layer on Type 304 stainless steels (SS), and electrochemical polarization tests were then performed to investigate the effect of Zn addition on corrosion mitigation of 304 SS in simulated boiling water reactor environments. Test results showed that the specimen treated with 1 ppm ZnO could experience the exchange of zinc ion and metal ion on the surface oxide, but none of the treated 304 SS specimens revealed any significant reduction in corrosion rate in the test environments.