Removal of monoethanolamine and phosphate from thin-film transistor liquid crystal display (TFT-LCD) wastewater by the fluidized-bed Fenton process

“…Since the textile industry has large‐scale production, they generate an enormous volume of wastewater which may cause serious health risks . Many authors have demonstrated the importance of developing reactors for the electro‐Fenton treatment of effluents . Thus, in this work a continuous fluidized bed electro‐Fenton reactor with half‐coating electrode as cathode was designed in order to simulate real continuous treatment of LGB (100 mg L −1 ).…”

“…To determine the ability of the selected coated Ni‐foam electrode to operate in a continuous process, a fluidized bed reactor was used. This reactor was a glass column with an internal diameter of 2 cm and height of 16 cm.…”

Coated nickel foam electrode for the implementation of continuous electro‐Fenton treatment

“…Since the textile industry has large‐scale production, they generate an enormous volume of wastewater which may cause serious health risks . Many authors have demonstrated the importance of developing reactors for the electro‐Fenton treatment of effluents . Thus, in this work a continuous fluidized bed electro‐Fenton reactor with half‐coating electrode as cathode was designed in order to simulate real continuous treatment of LGB (100 mg L −1 ).…”

“…To determine the ability of the selected coated Ni‐foam electrode to operate in a continuous process, a fluidized bed reactor was used. This reactor was a glass column with an internal diameter of 2 cm and height of 16 cm.…”

Coated nickel foam electrode for the implementation of continuous electro‐Fenton treatment

“…Su et al . also reported that the performance of FBF in the removal of monoethanolamine and phosphate from thin‐film transistor liquid crystal display (TFT‐LCD) wastewater was 15–20% higher than conventional Fenton oxidation.…”

“…A similar result was obtained by Liu et al [45] where FBF exhibited 15-20% higher treatment efficiency than conventional Fenton for the removal of COD from recalcitrant organic silicon wastewater. Su et al [46] also reported that the performance of FBF in the removal of monoethanolamine and phosphate from thin-film transistor liquid crystal display (TFT-LCD) wastewater was 15-20% higher than conventional Fenton oxidation.…”

Fenton oxidation treatment of recalcitrant dye in fluidized bed reactor: Role of SiO₂ as carrier and its interaction with fenton's reagent

“…FBC also requires substantially less space to dispose of the sludge from the precipitation processes. Fluidized bed reactors have been applied extensively to treat various wastewaters that contain heavy metals or inorganic acids, such as Ni, Cu, As, Zn, fluoride, boric acid and phosphorous acid [7][8][9][10][11]. However, the end product of FBC is composed of surface-coated crystals and supports, restated, the additional impurity would inevitably affect the recyclability of the recovered crystals.…”

Remediation of lead (Pb(II)) wastewater through recovery of lead carbonate in a fluidized-bed homogeneous crystallization (FBHC) system