Produced water (PW) is one of the phases generated from the three-phase separation obtained after the extraction of oil and gas and constitutes an industrial effluent. The management of its treatment for disposal due to the typical high flow and sensitivity of marine ecosystems is a challenge for companies that deal with this type of fluid, especially in offshore extraction. Since this effluent has a complex and variable chemical composition reaching up to 500 mg/L of water-soluble organic compounds (WSO), which are not easily removed by conventional physicochemical treatments such as coagulation and flocculation, several treatment alternatives are adopted in order to eliminate as much as possible oils and microparticles of solids present. To reach this goal, the PW must be treated before being released into the sea or reused in the process. However, the treatment stages are not always able to function optimally to meet the regulatory environmental quality, so the studies for new treatment processes continues to be part of general interest. In this work, Fe ion-catalyzed oxidation processes were tested to increase WSO degradation, using real PW samples from the Campos Basin (RJ, Brazil). The best results were obtained under the following conditions of H2O2 at a dose of 1x without the need for catalyst (Fe2+). In these, there was a 66 percent reduction in soluble organics, sufficient to maintain compliance with the requirements of environmental standards for water discharge.