This study is related to the removal of organics and other pollutants from drinking water using an integrated treatment system consisting of coagulation–sedimentation, ozonation and granular activated carbon (GAC)‐enhanced sand filtration. Standard methods and instruments were employed to measure turbidity, chemical oxygen demand determined by using the permanganate method as permanganate index (CODMn), UV254, total organic carbon (TOC), ammonia and nitrite of raw and treated water under controlled laboratorial conditions. The experimental results demonstrated that the total removal rates of turbidity, CODMn, UV254 and TOC were in the range of 98–99.9, 21–71, 33–73 and 20–47%, respectively, in different units of the integrated treatment system. GAC‐enhanced sand filtration significantly removed ammonia and nitrite, and the average removal efficiency was attained to 88 and 98%, respectively. In addition, most of the organic matter concentrations were observed to be reduced in GAC‐enhanced sand filtration and only small molecular weight compounds were detected in the effluent. All these pollutant reductions were noticed in the upper 350 mm of the activated carbon column in GAC‐enhanced sand filtration. The findings from this study suggest that the integrated treatment process can efficiently remove organics and other toxic pollutants from drinking water and can be a better alternative to conventional treatment.
The Cd concentration in 28 vegetables and soil environment of Urumqi outskirts were analyzed. By comparing with Cd accumulation coefficient of the vegetables, it was found that Allium sativum L. has the strongest ability of accumulating Cd. Based on this, Allium sativum L. was taken as the experiment material. The Cd accumulation characteristics of Allium sativum L. was primarily determined by a test with different settings of Cd concentration gradient simulated in pots. The results show that the accumulation coefficient of Cd is evidently higher than those of other vegetables. When the Cd concentration is 50mg/kg in the alkaline soil, the Cd content in the aboveground part of the Allium sativum L. reaches 15 mg/kg, and the underground part is 48.7 mg/kg. It indicates that Allium sativum L. has a stronger ability in restoring Cd contaminated soil.
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