佛山科学技术学院学报:自然科学版
彿山科學技術學院學報:自然科學版
불산과학기술학원학보:자연과학판
Journal of Foshan University(Natural Science Edition)
2012年
4期
77-80
,共4页
动态纳污能力%综合衰减系数%感潮河道%氨氮
動態納汙能力%綜閤衰減繫數%感潮河道%氨氮
동태납오능력%종합쇠감계수%감조하도%안담
dynamic pollution take-in capacity%compound attenuation coefficient%tidal river%ammonia
根据水质、水量同步监测数据及实验数据,建立感潮河道水质模型,以氨氮作为控制因子,对广佛交界的水口水道动态纳污能力进行研究。在动态纳污能力计算中,考虑不同流量下的纳污能力,并建立了水域纳污能力与流量、水温的关系。
根據水質、水量同步鑑測數據及實驗數據,建立感潮河道水質模型,以氨氮作為控製因子,對廣彿交界的水口水道動態納汙能力進行研究。在動態納汙能力計算中,攷慮不同流量下的納汙能力,併建立瞭水域納汙能力與流量、水溫的關繫。
근거수질、수량동보감측수거급실험수거,건립감조하도수질모형,이안담작위공제인자,대엄불교계적수구수도동태납오능력진행연구。재동태납오능력계산중,고필불동류량하적납오능력,병건립료수역납오능력여류량、수온적관계。
In light of the synchronic monitoring statistics of water quality and flow, we discussed the dynamic pollution take-in capacity of the waterways and outlets located at the boundaries between Guangzhou and Foshan through establishing a simultaneous water quality monitoring model and using ammonia and nitrogen as the control factors. Taking the discussion as the base, we considered the pollution take-in capacity in different flow and studied the relationship among the rate of water flow, the temperature of water and the dynamic pollution take-in capacity.
