共查询到11条相似文献,搜索用时 78 毫秒
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太湖西北部尤其是梅梁湖水质较差,新沟河延伸拓浚工程实施后,可通过外排梅梁湖水改变太湖的水动力水质环境.利用Mike21建立太湖二维水动力水质数学模型,研究该工程实施后对太湖水动力水质的影响.研究得到:新沟河工程实施后,可有效改善梅梁湖的水动力条件,梅梁湖换水周期缩短13.3%;同时,梅梁湖CODMn、 TP、TN等主要... 相似文献
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河道治理工程重在改善河道的水质,以恢复河流生态系统。本文以北京市大兴区天堂河河道治理工程为例,介绍了河道治理工程环境影响评价中的水质改善预测分析,首先分析生态需水量和供氧量是否满足河流生态需水要求,后又利用地面水环评助手软件预测了河流水质,预测分析了天堂河水质目标的可达性,旨在为以后的河道治理类工程环境影响评价提供参考。 相似文献
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利用二维模型求解太湖水质CODMn的研究 总被引:1,自引:0,他引:1
在二维黎曼近似解模型的基础上建立了太湖水质预测模型,并运用该模型对太湖的水质指标CODMn了模拟。模拟的结果跟太湖各监测站的测量值相接近,表明该模型能较好的运用于太湖的水质预测。 相似文献
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Robert C. Ostry 《Journal of the American Water Resources Association》1982,18(1):99-104
ABSTRACT: The Grand and Saugeen Rivers in southern Ontario were chosen for study as pilot watersheds under the Pollution From Land Use Activities Reference Group (PLUARG) study. The pilot watersheds have adjacent headwater areas and are physically similar in geology, physiography, and climate. Significant differences in water quality between the watersheds at their outlets are attributed to land use and population differences. The major pollutant sources in the two pilot watersheds were identified as trace elements from urban runoff and point source discharges; phosphorus from agricultural and urban runoff and private waste disposal; chloride from transportation corridors; and sediment and nitrogen from agricultural runoff. Yields at the watershed outlets were similar for suspended sediment and two to three times as high in the Grand River for phosphours, nitrogen, chloride, and lead. The higher phosphorus and nitrogen levels were attributed to larger point source inputs and the higher proportion of agricultural activity, comprising 75 percent of the Grand River basin compared to 64 percent in the Saugeen River basin. Similarly, the higher chloride and lead levels were attributed to an order of magnitude larger population and three times as much urban land in the Grand River basin compared to the Saugeen River basin. 相似文献
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采用综合营养状态指数法(TLI)对金山湖的3个监测点位在2012年的水质进行了评价。结果显示,八号码头监测点全年呈现中营养状态;京口闸监测点在丰水期呈现中营养,在枯水期有轻度富营养状态出现;虹桥港监测点水体呈现"轻度富营养-中营养-轻度富营养"的变化趋势。并采用主成分分析法,分析虹桥港监测点水体富营养化的主导因子,为控制金山湖水污染提供依据。分析结果表明,溶解氧、总磷和高锰酸盐指数是虹桥港监测点水体富营养的主导因子。因此,削减金山湖水体中磷营养盐和高锰酸盐,提高溶解氧含量是控制该监测点水污染的主要措施。 相似文献
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