WASTEWATER TREATMENT ASSESSMENT OF A OIL REFINING UNIT OXIDATIVE ADVANCED USING ARTIFICIAL NEURAL NETWORKS Sibéria Caroline Gomes de Moraes*, Léa Elias.

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WASTEWATER TREATMENT ASSESSMENT OF A OIL REFINING UNIT OXIDATIVE ADVANCED USING ARTIFICIAL NEURAL NETWORKS Sibéria Caroline Gomes de Moraes*, Léa Elias M. C. Zaidan, Daniella C. Napoleão, Maria da Conceição B. de M. Montenegro, Frede Carvalho de Oliveira, Valdinete Lins da Silva. The exploration, production and transportation of oil and its derivatives can lead to generation of effluents that are usually treated by biological processes. However, these processes produce sludge with a high load of contamination and should be taken to landfill or co-processes, processes that are costly to the company. In this work we applied the method to advanced oxidation processes (AOP) for degradation of polycyclic aromatic hydrocarbons (PAH) in wastewater refinary an actual oil and data were processed by neural networks, statistical models based on behavior of a complex physical system capable of mapping a set of input-output without having any prior knowledge of the other process, relying only on historical data. MATERIALS AND METHODS RESULTS CONCLUSION INTRODUCTION The results were corroborated by measurements of degradation of PAH and TOC. Three oxidation processes were used: photolysis, Fenton and photo-Fenton. In treatments we employ a H2O2 concentration of 60, 95 and 130 mmol in time of 30, 75 and 120 min. The toxicity test was used microcrustacean Artemia salina, which were subjected to exposure for 24 hours to give a Percentage of survivors microcrustacean which proves the effectiveness of the treatment. To use the neural network, the experimental data and simulations were used in the testing, training and validation of PAH and TOC. The results were corroborated by measurements of degradation of PAH, and TOC were completed with toxicity studies using natural material microcrustacean. We used three oxidation processes: Photolysis, Fenton process and process photo-Fenton. There was a decline below 30% for treatment with photolysis, up to 60% for the Fenton treatment and over 90%. In the toxicity test, we used the microcrustacean Artemia salina, which were subjected to exposure for 24 hours, obtaining a percentage of 80% of survivors’ microcrustacean which proves the effectiveness of treatment. To employ the neural network, we used the experimental data and simulated in the test and validation, leading to evidence that the values were very close and that the neural network used was able to accurately track the trend of the data, hence the values of TOC, because the correlation coefficient for the first model was R2=0.994 (Figure 1) and the second model was R2=0.996 (Figure 2). The degradation of the HPA for the samples showed that the advanced oxidation processes can complement the biological or alone are effective in degrading recalcitrant oil industry compounds. For both neural modeling strategies studied, the correlation coefficients were compared to the literature, evidencing the efficiency of neural networks in modeling the advanced oxidation process. Proving this way, the RNA may be able to describe the performance of the photo-oxidative process, notwithstanding its complexity, since the comparison between experimental and simulated data predicted output variable TOC. Figure 1. Regression graph for the first neural modeling Figura 2. Regression graph for the second neural modeling.