The results show that the wastewater pretreated by PAM coagulation/precipitation iron carbon micro cell process and then treated by biofilm SBR process can meet the discharge standards.

An innovative reactor for ferrum-carbon micro-cell electrolysis (packed-fluidized bed) was presented and its hydraulic behaviors have been investigated in this study.

Pulp and paper effluent tertiary treatment by micro-electrolysis technology;

Study on advanced treatment of coking wastewater by iron-carbon micro-electrolysis process;

Study on advanced treatment of printing and dyeing wastewater by joint oxidation technology of iron-carbon micro-electrolysis and Fenton reagents;

Advanced treatment of oxyfluorfen wastewater by iron-carbon micro-electrolysis process with aeration was studied.

Pretreatment of wastewater from pyrimidine production by iron-carbon microelectrolysis-Fenton oxidation process;

Study on the treatment of fumaric acid-containing wastewater by iron-carbon microelectrolysis-EGSB

Pretreatment of printed circuit board wastewater by iron-carbon microelectrolysis

Study of pretreatment of DTTA-containing organic wastewater by microelectrolysis of iron and carbon;

Fumaric acid-containing wastewater was pre-treated by a method of microelectrolysis of iron and carbon, with the reaction time, pH value, temperature and ratio of iron to carbon studied.