Adsorption characteristics of sulfur solution by acticarbon against drinking-water toxicosis |
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Affiliation: | 1. School of Materials Science and Engineering, Central South University of Forestry and Technology, Changsha 410004, China;2. School of Management, Henan University of Technology, Zhengzhou, Henan 450001, China;3. Laboratory of Biomaterials Science, Kyoto Prefectural University, Kyoto, Japan |
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Abstract: | Sulfur and ammonia nitrogen are rich nutrient pollutants, after entering water can cause algal blooms, cause eutrophication of water body, the spread of them will not only pollute the environment, destroy the ecological balance, but also harm human health through food chain channels, especially drinking-water toxicosis. Acticarbon can adsorb harmful substances, it was beneficial for people’s health. In order to figure out the optimal adsorption condition and the intrinsic change of acticarbon, five chemicals were adsorbed by acticarbon and analyzed by FT-IR. The optimal adsorption condition of Fe2(SO4)3, Na2SO4, Na2S2O8, S and Na2SO3 was 9 g/1000 g at 80 min, 21 g/1000 g at 20 min, 15g/1000 g at 20 min, 21 g/1000 g at 60 min and 21 g/1000 g at 100 min, respectively. FT-IR spectra showed that acticarbon had eight characteristic peaks, such as S-S stretch, H2O stretch, OH stretch, CH stretch, CO or CC stretch, CH2 bend, CH were at 3850 cm−1, 3740 cm−1, 3435 cm−1, 2925 cm−1, 1630 cm−1, 1390 cm−1, 1115 cm−1, 600 cm−1, respectively. For FT-IR spectra of Fe2(SO4)3, the peaks at 3850 cm−1, 3740 cm−1, 2925 cm−1 achieved the maximum with 9 g/1000 g at 20 min. For Na2SO4, the peaks at 2925 cm−1, 1630 cm−1, 1390 cm−1, 1115 cm−1, 600 cm−1 achieved the maximum with 21 g/1000 g at 120 min. For ones of Na2S2O8, the peaks at 3850 cm−1, 3740 cm−1, 1390 cm−1, 1115 cm−1, 600 cm−1, achieved the maximum with 2 g/1000 g at 80 min. For ones of S, the peaks at 3850 cm−1, 3740 cm−1, 2925 cm−1 achieved the maximum with 19 g/1000 g at 100 min, the peaks at 1390 cm−1, 1115 cm−1, 600 cm−1 achieved the maximum with 19 g/1000 g at 20 min. For FT-IR spectra of Na2SO3, the peaks at 1630 cm−1, 1390 cm−1, 1115 cm−1, 600 cm−1 achieved the maximum with 2 g/1000 g at 100 min. It provided that acticarbon could adsorb and desulphurize from sulfur solution against drinking-water toxicosis. |
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Keywords: | Acticarbon Drinking-water toxicosis |
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