A mediated electrochemical oxidation process is used to treat, oxidize and destroy organic waste materials such as halogenated hydrocarbons (except fluorinated hydrocarbons), pesticides, detergents, petroleums and paraffins, macrocyclic compounds, plastics (except perfluorinated polymers), latex, carbon residues, cyclic aliphatic compounds (such as olefins, alcohols, ketones, etc.), aromatics, aldehydes, esters, amines, hydrocarbons (including alkanes, alkenes, alkynes, alkenynes, heterocyclic compounds, organic acids, ethers, organometallic compounds, organic radicals (such as: univalent, bivalent, or trivalent radicals derived from saturated and unsaturated aliphatics, aromatic hydrocarbons, heterocyclic compounds) ; and combined waste (e.g. a mixture of any of the foregoing with each other or other non-organic waste). Waste materials are introduced into an apparatus for contacting the waste with an electrolyte containing the oxidized form of one or more reversible redox couples, at least one of which is produced electrochemically by anodic oxidation at the anode of an electrochemical cell. The oxidized forms of any other redox couples present are produced either by similar anodic oxidation or reaction with the oxidized form of other redox couples present and capable of affecting the required redox reaction. The oxidized species of the redox couples oxidize the organic waste molecules and are themselves converted to their reduced form, whereupon they are reoxidized by either of the aforementioned mechanisms and the redox cycle continues until all oxidizable waste species, including intermediate reaction products, have undergone the desired degree of oxidation. The entire process takes place at temperatures between ambient and approximately 100°C, thereby avoiding any possible formation of either dioxins or furans. The oxidation process may be enhanced by the addition of reaction enhancements, such as: ultrasonic energy and / or ultraviolet radiation.