Your search keyword '"S Y, Han"' showing total 2 results

1. Fluoride-leaching simulation of aquifer sediment and its influence on groundwater fluoride levels along coastal plains

Author

C. P. Jia, Q. Chen, M. G. An, C. L. Zhi, S. W. Lou, P. P. Zhang, Q. C. Li, Y. M. Zhang, S. Y. Han, and H. T. Zheng

Subjects

coastal plains, drinking-water fluorosis, fluoride-leaching, laizhou bay, seawater intrusion, Water supply for domestic and industrial purposes, TD201-500, River, lake, and water-supply engineering (General), TC401-506

Abstract

Seawater intrusion and drinking-water fluorosis are frequently documented along coastal plains. Groundwater is characterized by high OH−, Na+, total dissolved solids, and low Ca2+ because of seawater intrusion, and such conditions favor sediment fluoride-leaching and fluorosis. But the geological process of seawater intrusion has not been noticed when high-fluoride groundwater along coastal areas is discussed. The groundwater and sediments in a typical seawater intrusion and fluorosis area are gained, and fluoride-leaching simulation experiments are performed. Sediment fluoride levels are equal to or lower than average sediment fluoride levels in China and Shandong province, but strong fluoride-leaching in aquifers is observed. Compared with the supplied water from the non-intruded neighboring area, the local groundwater has higher fluoride levels, together with higher pH, total dissolved solids, HCO3−, Cl−, Br−, SO42−, Na+, K+, and low Ca2+ because of seawater intrusion. Aquifer sediment fluoride-leaching ability increases with an increase in seawater (brine water) mixing ratios, and NaCl or NaHCO3 levels, but with a decrease in CaCl2 levels. This directly confirms that seawater (brine water) intrusion promotes sediment fluoride-leaching, and the high pH, Na+, HCO3−, and low Ca2+ levels caused by seawater intrusion are responsible for the high-fluoride groundwater along coastal plains. HIGHLIGHTS The local groundwater is characterized by seawater intrusion and high fluorine levels, while the aquifer sediments show low fluorine levels.; The fluorine-leaching ability of aquifer sediments increases with higher ratios of seawater or brine water, higher levels of NaCl and NaHCO3, and lower levels of CaCl2.; Seawater intrusion is an important dynamic of groundwater fluorine enrichment along coastal plains.;

Published

2022

2. Gong-ju WTP, the first full-scale membrane plant for drinking water treatment in Korea: the result of detailed design

Author

H. K. Chun, M. N. Kim, B. S. Kim, K. H. Jin, S. Y. Han, and Y. G. Son

Subjects

Powdered activated carbon treatment, Engineering, Waste management, business.industry, Microfiltration, Membrane fouling, Full scale, computer.software_genre, Pilot plant, Computer Aided Design, Water treatment, Raw water, business, computer, Water Science and Technology

Abstract

The construction of Gong-ju WTP (30,000 m3/day), the first practical full-scale integrated membrane system in Korea, has been launched after 6 months of pilot plant operation and 10 months of detailed design. Powdered activated carbon process was applied in order to remove taste and odor caused by algae and coagulation process was applied in consideration of reducing membrane fouling in this micro filtration system. Pilot testing concluded that the pressure type of hollow fiber membrane was more suitable for the raw water characteristic and economical aspects than submerged type membrane system. For the best flow distribution of each unit, CFD (computational fluid dynamics) analysis was performed on aspects of pipe arrangement and daily integrity test system was applied to ensure the safety for leakage under the criteria of 5-log removal. In view of the complicated and equipment-intensive nature of this membrane system, a 3D CAD system was utilized to minimize trial and errors of construction in accordance with combination of each equipments rendered by 3D CAD, and also optimised operation and maintenance were verified through the simulation of 3D rendering.

Published

2008