Wet air oxidation (WAO) is an attractive technique for sewage sludge treatment. The
WAO process and the factors influencing the process are examined in detail, together with the advantages
and disadvantages. Catalytic wet air oxidation (CWAO) is emphasized because it can lower
operational conditions, and the commonly-used and new homogeneous and heterogeneous catalysts
are introduced. Homogeneous catalysts tend to be more appropriate for the CWAO treatment
of sewage sludge, and Cu-based homogeneous catalysts such as CuSO4 are the most popular for industrial
applications. Heterogeneous catalysts include non-noble metal catalysts, noble metal catalysts,
metal-organic frameworks (MOFs) catalysts, and non-metal catalysts. Non-noble metal catalysts
typically contain hetero-elements as in Mo-based, Ce-based, Cu-based, Fe-based catalysts,
multi-metal supported catalysts, and polyoxometalates catalysts. In general, Mo-based catalysts
and Ce-based catalysts have higher activities than other metal-based catalysts. The commonly-used
noble metal elements are based on Ru, Pt, Pd, Rh, and Ir. The MOF catalysts tend to have high catalytic
activity, and the non-metallic carbon catalysts may be used in environments that would otherwise
be toxic to traditional metal catalysts. To conclude, a summary of the challenges and
prospects of WAO technology in sewage sludge treatment is given.
Single-atom nickel confined nanotube superstructure as support for catalytic wet air oxidation of acetic acid
