Removal of phosphonates from industrial wastewater with UV/Fe, Fenton and UV/Fenton treatment.

Phosphonates are an important group of phosphorus-containing compounds due to their increasing industrial use and possible eutrophication potential. This study involves investigations into the methods UV/Fe, Fenton and UV/Fenton for their removal from a pure water matrix and industrial wastewaters. It could be shown that the degradability of phosphonates by UV/Fe (6 kWh/m) in pure water crucially depended on the pH and was higher the less phosphonate groups a phosphonate contains.

Photodegradation of Reactive Black 5, Direct Red 28 and Direct Yellow 12 using UV, UV/H(2)O(2) and UV/H(2)O(2)/Fe(2+): a comparative study.

The photodegradation of three commercially available dyestuffs (C.I. Reactive Black 5, C.

Photochemical degradation and mineralization of phenol: a comparative study.

In this study, photochemical advanced oxidation processes (AOPs) utilizing the combinations of UV, UV/H2O2, and UV/H2O2/Fe2+ (Photo-Fenton process) were investigated in lab-scale experiments for the degradation and mineralization of phenol. The major parameters investigated were the initial phenol concentration, pH, hydrogen peroxide, and iron doses, and the effect of the presence of radical scavengers (PO4(-3), SO4(-2), and Cl- ions). It was observed that the phenol degradation efficiency decreased with increasing phenol concentration and pH in UV process.

Photochemical degradation and mineralization of 4-chlorophenol.

Intention, Goal, Scope, Background: Since the intermediate products of some compounds can be more toxic and/or refractory than the original compund itself, the development of innovative oxidation technologies which are capable of transforming such compounds into harmless end products, is gaining more importance every day. Advanced oxidation processes are one of these technologies. However, it is necessary to optimize the reaction conditions for these technologies in order to be cost-effective.

Ferrioxalate-mediated photodegradation and mineralization of 4-chlorophenol.

Intention, Goal, Scope, Background: Advanced oxidation processes are powerful methods which are capable of transforming refractory, nonbiodegradable and/or toxic organic compounds into harmless end products such as carbon dioxide and water. However, one commen problem of all advanced oxidation processes is the high demand of electrical energy for ultraviolet lamps, which causes high operational costs. Minimization of the required irradiation time, and therefore the energy consumption, by optimization of other reaction conditions such as catalyst-oxidant type and concentration, pH, temperature, pollutant/oxidant ratio etc.