Abstract
The pulp and paper industry is one of world’s largest water consumers, generating high volumes of effluents. The Kraft process produces effluents with high BOD, COD, suspended solids, lignin and a myriad of potentially toxic compounds, which require treatment before discharge into the aquatic environment. Advanced oxidation processes, such as UV/H2O2, have been applied as treatment alternatives because they can destroy many compounds before they mineralize. However, when the oxidation process is incomplete, occurs could be produced by products with high toxicity. This study evaluated the acute toxicity on Daphnia magna of two effluent samples of Kraft pulp mill (KE1 and KE2) treated by UV/H2O2 process. The effects of the pH variation and oxidant concentration on the removal of DOC, total UV-vis spectral area and apparent color were considered to adjust the experiments’ conditions with diluted effluent KE1. Both samples were treated at pH 4.0 and 70 mg L-1 of H2O2 for 40 min, achieving removals of up to 69.4% in apparent color, 73.7% of phenolic compounds and 68.9% of lignin compounds. When the reaction was applied in undiluted effluent samples, the acute toxicity for Daphnia magna decreased for KE1 after 780 min of treatment, whereas KE2 became four times more toxic. The data showed that although the treatment had been efficient considering physics and chemicals parameters, it is necessary follow the oxidative processes with ecotoxicological bioassays to guarantee their safety, since different effluents of the Kraft pulp mill could present different levels of organic compound mineralization.
Highlights
The pulp and paper industry consumes a large amount of water (Ashrafi et al, 2015) and is one of the largest polluters due the variety of chemicals that are released into the environment (Savant el al., 2006)
The chemical oxygen demand (COD) were quite similar; but there was a wide variation in the BOD5 values
The most adopted method used to quantify biodegradability is the assessment of the BOD5/COD ratio (Sarria et al, 2002)
Summary
The pulp and paper industry consumes a large amount of water (Ashrafi et al, 2015) and is one of the largest polluters due the variety of chemicals that are released into the environment (Savant el al., 2006). In wastewater treatment of the pulp and paper industry, the AOPs most used are those wherein a source of radiation is applied (UV, visible or solar light), such as UV/H2O2, photo-Fenton and TiO2 photocatalysis (Catalkaya and Kargi, 2008). These processes are based on the generation of hydroxyl radicals in situ that exhibit high oxidizing power, low selectivity and in many cases result in complete degradation of organic matter (Del Moro et al, 2013). In the UV/H2O2 process, the hydroxyl radicals are formed by the homolithic break of H2O2 according to Equation 1: H2O2 + hv → 2 OH (1)
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