Published Paper Details:

The removal of benzene derivatives through an advanced oxidation process known as Fenton Reaction utilizing hydrogen peroxide (H2O2) is an effective method to address environmental pollution. Benzene, a common environmental contaminant, poses significant health risks as a known carcinogen. Advanced oxidation processes like Fenton H2O2 offer a sustainable solution for the remediation of benzene-contaminated water and soil. The Fenton Reaction, a catalytic process, involves the generation of hydroxyl radicals (oOH) through the reaction between H2O2 and ferrous ions (Fe +2). These highly reactive oOH radicals can efficiently degrade organic pollutants such as benzene derivatives through oxidation processes, leading to the formation of non-toxic by-products. One of the key advantages of employing H2O2 in the Fenton process is its ability to generate oOH radicals under mild conditions without producing harmful by-products. This environmentally friendly characteristic makes Fenton-H2O2 a suitable choice for benzene removal in terms of sustainability and efficiency. Research studies have shown the effectiveness of the Fenton-H2O2 process in degrading benzene derivatives, highlighting its potential for environmental remediation. The synergy between H2O2 and Fe +2 ions ensure the continuous generation of oOH radicals, leading to the degradation of benzene compounds into less harmful substances. Furthermore, the Fenton-H2O2 process can be optimized by controlling various parameters such as pH, H2O2 concentration, and Fe +2 dosage to enhance the removal efficiency of benzene derivatives. By fine-tuning these parameters, the process can be tailored to specific environmental conditions, making it a versatile and adaptable solution for benzene contamination. In conclusion, the advanced oxidation process Fenton-H2O2 offers a sustainable and effective approach for the removal of benzene derivatives in contaminated water and soil. Its ability to generate highly reactive oOH radicals under mild conditions makes it a promising technology for environmental remediation. By harnessing the power of H2O2 and Fe +2 ions, the Fenton process provides a viable solution to address the challenges posed by benzene pollution, contributing to a cleaner and safer environment for all.