水科学进展
水科學進展
수과학진전
2010年
1期
120-126
,共7页
底泥%氮释放%环境因子%主控因子
底泥%氮釋放%環境因子%主控因子
저니%담석방%배경인자%주공인자
sediments%release of nitride%environmental condition%main control factors
以苏州市古城区劣Ⅴ类水体为研究对象,利用模拟试验方法,研究和探讨了水体环境条件(DO、 Eh、 pH值、温度)变化和疏浚深度对河道底泥氮释放的影响.底泥供试样中NH_4~+-N与NO_3~-N含量一般为0.277g/kg与0.0012g/kg,上覆水体NH_4~+-N与NO_3~-N含量一般为6.743mg/L与1.500mg/L.试验结果表明:厌氧环境(DO<0.5mg/L)、强还原环境(Eh<-108mV)、酸性环境(pH<6.0)及温度升高均有利于底泥中NH_4~+-N的释放, NO_3~-N的迁移转化规律则相反;供试样控制疏浚深度5cm、10cm、15cm、20cm,当疏浚深度15cm时,泥-水界面向上覆水体中扩散的氮通量最小;疏浚深度、DO和Eh对底泥NH_4~+-N释放程度的影响大于pH和温度,通过曝气等方式保持水体中适当的溶解氧或使底泥保持较强的氧化电位环境可以有效抑制底泥中NH_4~+-N的释放.
以囌州市古城區劣Ⅴ類水體為研究對象,利用模擬試驗方法,研究和探討瞭水體環境條件(DO、 Eh、 pH值、溫度)變化和疏浚深度對河道底泥氮釋放的影響.底泥供試樣中NH_4~+-N與NO_3~-N含量一般為0.277g/kg與0.0012g/kg,上覆水體NH_4~+-N與NO_3~-N含量一般為6.743mg/L與1.500mg/L.試驗結果錶明:厭氧環境(DO<0.5mg/L)、彊還原環境(Eh<-108mV)、痠性環境(pH<6.0)及溫度升高均有利于底泥中NH_4~+-N的釋放, NO_3~-N的遷移轉化規律則相反;供試樣控製疏浚深度5cm、10cm、15cm、20cm,噹疏浚深度15cm時,泥-水界麵嚮上覆水體中擴散的氮通量最小;疏浚深度、DO和Eh對底泥NH_4~+-N釋放程度的影響大于pH和溫度,通過曝氣等方式保持水體中適噹的溶解氧或使底泥保持較彊的氧化電位環境可以有效抑製底泥中NH_4~+-N的釋放.
이소주시고성구렬Ⅴ류수체위연구대상,이용모의시험방법,연구화탐토료수체배경조건(DO、 Eh、 pH치、온도)변화화소준심도대하도저니담석방적영향.저니공시양중NH_4~+-N여NO_3~-N함량일반위0.277g/kg여0.0012g/kg,상복수체NH_4~+-N여NO_3~-N함량일반위6.743mg/L여1.500mg/L.시험결과표명:염양배경(DO<0.5mg/L)、강환원배경(Eh<-108mV)、산성배경(pH<6.0)급온도승고균유리우저니중NH_4~+-N적석방, NO_3~-N적천이전화규률칙상반;공시양공제소준심도5cm、10cm、15cm、20cm,당소준심도15cm시,니-수계면향상복수체중확산적담통량최소;소준심도、DO화Eh대저니NH_4~+-N석방정도적영향대우pH화온도,통과폭기등방식보지수체중괄당적용해양혹사저니보지교강적양화전위배경가이유효억제저니중NH_4~+-N적석방.
Water and sediment samples were collected from a polluted river in the old town of Suzhou City.The water in the river is classified as poor quality V according to the National Surface Water Quality Standard of China.We examine the regularity of nitrogen release from sediments under different environmental conditions such as the dissolved oxygen (DO) level, the redox potential status measured as Eh level, the pH value, the temperature, and the dredging depth, using the indoor experimental method. The results show that the contents of ammonia-nitrogen and nitrate materials in sediment samples are 277.03 mg/kg and 1.22 mg/kg, respectively, and these contents are 6.743 mg/L and 1.500 mg/L in the overlying water. The experiments reveal that the favorable conditions for the ammonia-nitrogen release from sediments include the anaerobic environment of DO < 0.5 mg/L, the strong reducing environment of Eh <-108 mV, and the acidic environment of pH < 6.0, as well as the high temperatures; while the opposite behaviors in these conditions are observed for the migration and transformation of NO_3~-N.The analysis of sediment samples collected at different dredging depths of 5 cm, 10 cm, 15 cm, and 20 cm indicates that the minimum release of nitrogen nutrient is found from the sample of 15 cm depth. The effects of dredging depth, DO, and Eh on the ammonia-nitrogen release in sediments are found to be greater than that of pH and temperatures. Our experimental study show that the ammonia-nitrogen release from sediments will be effectively inhibited if high dissolved oxygen levels in the overlying water as well as strong oxidizing potential status in the sediment can be properly maintained.
