Degradation of personal care product 2-chloropyrine detected in surface water

Abstract

Surface water bodies are getting contaminated day by day. Pollutants like 2-Chloropyridine (a class of halogenated pyridine derivative which are widely used in pharmaceutical and agrochemical sector) is detected in surface water bodies. It is toxic and carcinogenic. One of the reason of its presence in water bodies can be attributed to effluents from sewage treatment and industrial waste treatment plants, which may be due to inefficient conventional treatment technologies. Use of Advanced Oxidation technologies like Fenton’s oxidation has proven to be a promising alternative to degrade these recalcitrant and non-biodegradable compounds. The Present study accesses the applicability of laterite soil as a source of iron catalyst in Fenton’s oxidation process to degrade2-chloropyridine (2-CP) at various concentrations. Parameters like pH, dosage of laterite iron, hydrogen peroxide are optimized. Effect of initial concentration of the target compound on degradation kinetics is also investigated. Up to 75% degradation was achieved in a total reaction time period of 10hrs corresponding to Laterite iron: H2O2 ratio of 1:50 at a pH of 3 for a sample containing 2-CP compound at 10 mg/L. Use of iron in Fenton’s oxidation process harnessed from the laterite soil can be a suitable alternative to treat polluted water bodies contaminated with pharmaceutical halopyridine compounds.