Abstract
Reactive Black 5 (RB5) is one of the synthetic reactive dyes most used in the textile industry, due to its solubility in water and reactive groups which form covalent bonds within the fiber. In the process of dyeing fabrics, however, it is estimated that 12-14% of dyes are released into the effluent. This work evaluated the biodegradation of RB5 dye, adsorbed in polyurethane foam, by basidiomycetes (Phanerochaete chrysosporium ATCC 24725, Pleurotus ostreatus and Pleurotus floridae). Results were evaluated considering the partial- or total medium discoloration, the adsorption capacity of the dye in the polyurethane foam (PUF) and the respirometric measurements. The results showed that Phanerochaete chrysosporium was able to partially degrade 50 mg L-1 of RB5 in pH 6.0, when cultivated in Petri dishes. When this microorganism was cultivated in PUF cubes saturated with RB5 solution (50 mg L-1, pH 6.0), CO2 production reached an accumulated value of 2.16 mg on the fifteenth day, revealing the growth of the microorganism and consequently the contaminant degradation, which was used as the source of nutrients.
Highlights
IntroductionThe global textile and clothing business in 2017 is estimated to be worth about US $4.395 trillion
The textile industry is one of the most important in the world
The aim of this study was to use polyurethane foam as matrix support to assess the biodegradation of the Reactive Black 5 (RB5) by fungi basidiomycetes P. ostreatus, P. floridae and P. chrysosporium ATCC 24725 in Bartha respirometers
Summary
The global textile and clothing business in 2017 is estimated to be worth about US $4.395 trillion. The current global apparel market is estimated at approximately US$ 1.15 trillion, which makes up nearly 1.8% of the world Gross Domestic Product (GDP) (Textile Mates, 2018). The RB5 is highly soluble in water and difficult to degrade due to its polyaromatic (Fan et al, 2009) Another troubling fact is the production of aromatic amines due to the degradation of this type of dye with azo bonds, which are highly carcinogenic (Vilar et al, 2011), while being considered highly recalcitrant, toxic and mutagenic substances for various aquatic species (Vedrenne et al, 2012)
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