TY - DATA T1 - Study of Different Advanced Oxidation Processes for Wastewater Treatment from Petroleum Bitumen Production at Basic pH PY - 2017/07/12 AU - Grzegorz Boczkaj AU - André Fernandes AU - Patrycja Makoś UR - https://acs.figshare.com/articles/journal_contribution/Study_of_Different_Advanced_Oxidation_Processes_for_Wastewater_Treatment_from_Petroleum_Bitumen_Production_at_Basic_pH/5244523 DO - 10.1021/acs.iecr.7b01507.s001 L4 - https://ndownloader.figshare.com/files/8962927 KW - peroxone KW - r ox KW - technology KW - BOD 5 reduction KW - AOP KW - Petroleum Bitumen Production KW - O 3 KW - Basic pH Effluents KW - effluent KW - VOC KW - biotoxicity KW - H 2 O 2 KW - formation KW - Different Advanced Oxidation Processes N2 - Effluents from production of petroleum bitumens were submitted to treatment by three different AOPs at basic pH (i.e., O3, H2O2 and the combination of O3 and H2O2, a so-called peroxone). The paper presents studies on the identification and monitoring of the volatile organic compounds (VOCs) degradation present in the effluents and formation of byproducts, COD, BOD5, sulfide ions, biotoxicity, and biodegradability changes during treatment. Peroxone at 25 °C with a ratio of oxidant in relation to the COD of the effluents (rox) of 0.49 achieved 43% and 34% of COD and BOD5 reduction resulting in the most effective AOP studied. S2– ions were effectively oxidized in all technologies studied. Ozonation at 25 °C and with a rox of 0.34 was the most effective process to degrade VOCs. Decrease in the biotoxicity was reported in O3 and peroxone processes. Byproduct formation in different AOPs was reported. These reductions revealed that these technologies are effective if used as pretreatment methods. ER -