Publications by authors named "Xiu-Chen Qiao"

Polyacrylamide and its copolymers are routinely employed for polymer flooding, generating an emulsifying and highly viscous wastewater that warrants enhanced treatment due to its recalcitrant nature. Herein, a falling-film dielectric barrier discharge (DBD) plasma reactor was used to examine the simultaneous viscosity removal and degradation of polyacrylamide (PAM), hydrolyzed, and cationic polyacrylamide (HPAM and CPAM) wastewater. The reactor conditions (pH: 6.

View Article and Find Full Text PDF

Copper slag is not only a waste but it has many valuable and recoverable metals present in it such as iron. Therefore, this study focuses on the utilization of waste materials i.e.

View Article and Find Full Text PDF

Tetracycline (TC) and Oxytetracycline (OTC) are common antibiotics increasingly detected in the environment, posing a potential risk to human and aquatic lives. Although conventional methods such as adsorption and photocatalysis are used for the degradation of TC and OTC, they are inefficient in removal efficiency, energy yield, and toxic byproduct generation. Herein, a falling-film dielectric barrier discharge (DBD) reactor coupled with environmentally friendly oxidants (hydrogen peroxide (HPO), sodium percarbonate (SPC), and HPO + SPC) was applied, and the treatment efficiency of TC and OTC was investigated.

View Article and Find Full Text PDF

With development and urbanization, the amount of wastewater generated due to human activities drastically increases yearly, causing water pollution and intensifying the already worsened water crisis. Although convenient, conventional wastewater treatment methods such as activated sludge, stabilization ponds, and adsorption techniques cannot fully eradicate the complex and recalcitrant contaminants leading to toxic byproducts generation. Recent advancements in wastewater treatment techniques, specifically non-thermal plasma technology, have been extensively investigated for the degradation of complex pollutants in wastewater.

View Article and Find Full Text PDF

The frequent detection of paracetamol in natural water increased environmental concerns. The dielectric barrier discharge (DBD) technology is an effective paracetamol removing method, however, this research showed that the removal of paracetamol using DBD technology at 30 min dropped from 100% to 53.3% as the initial paracetamol concentration increased from 10 mg/L to 100 mg/L, due to the formation of more competitive intermediate products at higher paracetamol concentration.

View Article and Find Full Text PDF