Your search keyword '"Yao, Hui"' showing total 2 results

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

Author

Chen, Chuh-Shun, Shih, Yu-Jen, and Huang, Yao-Hui

Subjects

*SEWAGE, *CRYSTALLIZATION, *ENVIRONMENTAL engineering, *LANDFILLS, *HEAVY metals

Abstract

This work demonstrated the removal of lead (Pb) from aqueous solution using fluidized-bed crystallization (FBC, using silica sand as seeds) and fluidized-bed homogeneous crystallization (FBHC, without seeds) systems. Synthetic lead wastewater with concentrations of 10, 40 and 200 ppm were treated. The results thus obtained indicated that effluent pH was an essential parameter in determining the efficiency of FBC and FBHC. A comparison between theoretical solubility and residual Pb in effluents revealed that FBHC in the predictable metastable region of pH 6.5–8.5 guaranteed 99% Pb removal and a crystallization ratio of 95% (CR%). XRD analysis suggested that the lead carbonate of FBHC products comprised either a cerussite (PbCO 3 ) or a hydrocerussite (Pb 3 (CO 3 ) 2 (OH) 2 ) phase, depending on pH. FBHC was proven to be effective in remediating lead wastewater under optimal hydraulic conditions (initial molar ratio of [Na 2 CO 3 ]/[Pb] > 1.2, upflow velocity = 25–35 m h −1 and pH e = 7.2 ± 0.4), which were all similar to those in FBC. The cross-section loading (L, kg m −2 L −1 ) depended on the input Pb level; L was controlled at 0.15 kg m −2 h −1 for treating 10 ppm-Pb and was increased to 5.73 kg m −2 h −1 for 40 and 200 ppm-Pb, optimizing the FBHC and FBC processes. Without the addition of seed materials, FBHC recovered purer lead carbonate than did FBC. [ABSTRACT FROM AUTHOR]

Published

2015

2. The recovery of sulfur as ZnS particles from sulfide-contained wastewater using fluidized bed homogeneous crystallization technology.

Author

Liao, Po-Lin, Mahasti, Nicolaus Nezha Nunez, and Huang, Yao-Hui

Subjects

*SUPERSATURATION, *CRYSTALLIZATION, *CHEMICAL processes, *PRECIPITATION (Chemistry), *X-ray photoelectron spectroscopy, *ZINC sulfide, *DESULFURIZATION, *UPFLOW anaerobic sludge blanket reactors

Abstract

[Display omitted] • Sulfide-containing synthetic wastewater was treated by fluidized-bed homogeneous crystallization. • Fluidized bed homogeneous crystallization technology does not need to add the heterogeneous seeds. • The crystallization efficiency of sulfide recovered as zinc sulfide particles reached 97.8%. • Supersaturation is calculated to determine the optimum condition of sulfur crystallization. Sulfide wastewater that is anthropogenically generated from industrial activities is highly corrosive, hazardous, and harms the natural ecosystem. This study uses a novel fluidized-bed homogeneous crystallization (FBHC) method to remove sulfide ions from an aqueous solution. Zinc is used as a precipitant to crystallize ZnS homogeneously in the FBHC reactor to reduce the sludge, which is commonly produced in a conventional chemical precipitation process. The optimal pH value, [Zn2+] 0 /[S2-] 0 M ratio, sulfide cross-sectional surface loading (L, kg-S/m2.hr), and hydraulic retention time (HRT) for the system are established, to optimize the sulfur removal efficiency. The maximum crystallization ratio and the total removal efficiency for sulfur are 97.7% and 98.8%, respectively, at pH = 5.4, a [Zn2+] 0 /[S2-] 0 M ratio of 1, a cross-sectional surface loading of 2.2 kg-S/m2.hr, and an HRT number of 6 with an initial sulfur concentration of 320 mg/L. The solid products are collected and identified as zinc sulfide (wurtzite) using X-ray diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR), and X-ray photoelectron spectroscopy (XPS). [ABSTRACT FROM AUTHOR]

Published

2022