Abstract
Biological treatment for textile wastewater always has a limitation in term of time of reaction and uncertainty along the process. This study focused on the decolorization of synthetic azo dyes in batch reactors with controlled thermotolerant anaerobic conditions. Less-volatile digested sludge collected from a palm oil biogas reactor was used as the organic biodegradation agent for azo dyes. Digested sludge contains high amounts of microbes with uncertain species viable for decolorization purposes. Sodium acetate trihydrate (C2H9NaO5) was used as carbon source and mixed with a specific composition of minimum salt media (MSM) in batch reactors as an additional nutrient. Digested sludge both in mesophilic (35°C) and thermophilic (55°C) conditions were found to be capable of decolorizing 100, 200 and 300 ppm of three types of azo dyes: Reactive Green 19 (45.56%, 69.73%; 63%, 73.49%; 70.02%, 75.92%), Reactive Orange 16 (46.08%, 78.4%; 64.21%, 85.52%; 74.95%, 85.91%) and Reactive Red 120 (29.11%, 85.32%; 63.35%, 87.69%; 72.02%, 89.5%) respectively after 7 days incubation time. Statistical analysis also showed that the anaerobic thermophilic conditions had significantly accelerated the decolorization process. The anaerobic thermophilic environment will be a good factor to include in future textile wastewater treatment plants.
Highlights
The batik industry especially in the Malaysian states of Kelantan and Terengganu is one of the main attractions in their tourism sector
This study focused on the decolorization of synthetic azo dyes in batch reactors with controlled thermotolerant anaerobic conditions
The concentration of reactive azo dyes could be a factor in the decolorization process, but the results only showed significant differences under the mesophilic condition (35°C)
Summary
The batik (traditional wax-resist dyeing applied to whole cloth) industry especially in the Malaysian states of Kelantan and Terengganu is one of the main attractions in their tourism sector. Lack of awareness and proactive action towards textile wastewater may cause significant problems to the environment, mostly near rivers and the sea. Textile wastewater could be mutagenic, carcinogenic and very toxic towards aquatic life[2,3,4]. There are significant problems arising from the textile industry, including their effluents that contain toxic metals like silicate and high levels of chemical oxygen demand (COD)[5]. Dye effluent are highly colored, toxic and recalcitrant in nature textile industry had become the source of highly colored wastewater, which harms the marine life due to low sunlight penetration and excessive oxygen demand[6]. Textile wastewater could be treated with various methods, including physically, chemically, and biologically or combinations of those methods
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