Chin-Hsing Lai scite author profile

This study was conducted to develop a process for coating hydrated iron oxide on the surface of quartz sand to utilize the adsorbent properties of the coating and the filtration properties of the sand. Three coating parameters were investigated: pH, Fe concentration at which iron oxide was prepared, and the coating temperature. A Scanning Electron Microscope (SEM) and X-Ray Diffractometer (XRD) were used to observe the surface properties of the coated layer. Acid resistance was used to evaluate the attachment strength of the coated layer. Batch adsorption tests were performed to compare the effects of each coating parameter on the adsorption of heavy metals on the coated layer. Energy Dispersive Analysis of X-ray (EDAX) was used for characterizing metal adsorption sites on the iron-coated sand. The results indicated that the coated sand had more pores and higher specific surface area because of the attachment of iron oxide. The coated sand produced at higher pH(coating) had better adsorption efficiencies of metals but had worse acid resistance. A high-temperature coating process enhanced the stability of the oxide coatings. Comparing heavy metal removal by adsorption on iron-coated sand and chemical precipitation, adsorption was shown to be capable of removing heavy metals over a wider pH range and to much lower levels than precipitation. The results from EDAX analysis showed that copper ions were chemisorbed on the surface of iron-coated sand.

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Removal of metal ions and humic acid from water by iron-coated filter media

Lai

Chen

2001

Chemosphere

148

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Cadmium adsorption on goethite-coated sand in the presence of humic acid

et al. 2002

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Adsorption/desorption properties of copper ions on the surface of iron-coated sand using BET and EDAX analyses

Lai

Chiang

2000

Chemosphere

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Estimating Cancer Risk Increment from Air Pollutant Exposure for Sewer Workers Working in an Industrial City

Yeh

Lai

Lin

et al. 2011

Aerosol Air Qual. Res.

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Sewer construction in Taiwan lags other developed nations, and the authorities are undertaking major sewerage system construction projects in several cities. In Kaohsiung City, sewerage networks pass through residential, commercial and industrial areas. The composition of sewage thus is highly complicated. Eight target monitoring positions are chosen to analyze the compounds and concentrations of hazardous air pollutants. Pollutant concentrations are used to evaluate the cancer risk increment based on inhalation intake for sewer workers under using exhaust ventilation and wearing personal gas filtering equipment. GC/MS analysis confirmed that concentrations of benzene and trichloromethane compounds in sewer air for all the monitoring positions exceeded the minimum risk levels (MRLs) of 0.009 ppm benzene and 0.1 ppm trichloromethane, and the maximum concentrations reached 148.4 and 327.3 ppm, respectively. The cancer risks of benzene and trichloromethane for workers without personal protection approached 2.77-3.98 × 10 -3 and 29.74-42.70 × 10 -3 , respectively. Through ventilation for 15 minutes and the wearing of gas filtering equipment, the cancer risks for benzene and trichloromethane were reduced to 0.0003-0.0004 × 10 -3 and 0.0029-0.0041 × 10 -3 , respectively. The authorities thus must order all workers to follow a strict code of practice for sewer entry before entering sewer systems. This code of practice should include a minimum time for general exhaust ventilation and the use of personal protection equipment.

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Chin-Hsing Lai

Characteristics and adsorption properties of iron-coated sand

Removal of metal ions and humic acid from water by iron-coated filter media

Cadmium adsorption on goethite-coated sand in the presence of humic acid

Adsorption/desorption properties of copper ions on the surface of iron-coated sand using BET and EDAX analyses

Estimating Cancer Risk Increment from Air Pollutant Exposure for Sewer Workers Working in an Industrial City

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