Patent ID: 7220360

Claim:
An integrated technology in sequential treatment of organics and heavy metal ions wastewater, comprising the steps of: (1). initializing a fenton process by adding proper amount of ferrous salt and hydrogen peroxide (H 2 O 2 ) into continuously mixing wastewater to adjust a molar ratio of organics:hydrogen peroxide (H 2 O 2 ):ferrous ions (Fe 2+ )) in a proper molar ratio, wherein reactive environment is controlled under conditions of temperature ranging from 20° C. to 100° C. and pH ranging from 2 to 5, and wherein a mixing rate is adjusted properly, and then monitoring variance of pH and oxidation-reduction potential (ORP) during said fenton process to determine a terminal time of said fenton process at which both pH and ORP reach a steady state; (2). after said fenton process, further adding proper amount of ferrous salt to re-adjust the molar ratio of organics:hydrogen peroxide (H 2 O 2 ):ferrous ions (Fe 2+ ) to control a molar ratio of ferrous ions (Fe 2+ ):heavy metal ions greater than 4; (3). further heating the wastewater to a temperature ranging from 20° C. to 100° C., and adding proper amount of ferrous salt and alkali to adjust pH ranging from 8 to 12 for conducting a concentration for heavy metal ions; (4). sequentially aerating air with a proper aerating rate to initialize a ferrite process, and then monitoring variance of pH and ORP during said ferrite process to determine a terminal time of said ferrite process at which both pH and ORP reach a steady state, by which ferrite products are capable of being formed therefrom; (5). after said ferrite process, delivering slurry out of an outlet of a reactor tank and into a sedimentation tank for solid/liquid separation and filtration, by which solid sediment of said ferrite products being further examined with a toxicity characteristic leaching procedure (TCLP), and filtrate that is filtered and separated from said slurry being recirculated to the step (3) for reuse or directly drained away after an aqueous analysis and a pH adjustment; and, whereby the above steps sequentially treat said organics and said heavy metal ions contained in said wastewater by using said fenton process to reduce the effect of said organics on the magnetism of said ferrite products so as to enhance the quality of said ferrite products; Fe ions taken as catalysts in said fenton process are turned into a reactant in said ferrite process to solve a color problem of said wastewater caused by ferric ions (Fe 3+ ) and reduce iron sludge caused by coagulation after said fenton process.