绿色科技
綠色科技
록색과기
LVSE DASHIJIU
2015年
8期
216-218,220
,共4页
完全混合总磷模型%南四湖%水质模拟%应用研究
完全混閤總燐模型%南四湖%水質模擬%應用研究
완전혼합총린모형%남사호%수질모의%응용연구
well-mixed total phosphorus model%Nansi Lake%water quality simulating%application research
水体中磷负荷量的增加与富营养化现象的发生关系密切。根据湖中磷的物质平衡原理,结合2006~2007年南四湖的空间监测数据,建立了磷浓度与湖泊磷负荷量之间的经验模型,分别给出了南四湖上级湖、下级湖的降解系数为3.87×10-3 d-1和2.46×10-3 d-1。以2010~2011年的空间监测数据为基础,对总磷模型进行了验证,表明该模型在南四湖上级湖和下级湖的适用性和可行性。结果表明:模型能很好地预测磷浓度,误差在5%以内,可以作为南四湖上、下级湖磷负荷变化的预测模型。
水體中燐負荷量的增加與富營養化現象的髮生關繫密切。根據湖中燐的物質平衡原理,結閤2006~2007年南四湖的空間鑑測數據,建立瞭燐濃度與湖泊燐負荷量之間的經驗模型,分彆給齣瞭南四湖上級湖、下級湖的降解繫數為3.87×10-3 d-1和2.46×10-3 d-1。以2010~2011年的空間鑑測數據為基礎,對總燐模型進行瞭驗證,錶明該模型在南四湖上級湖和下級湖的適用性和可行性。結果錶明:模型能很好地預測燐濃度,誤差在5%以內,可以作為南四湖上、下級湖燐負荷變化的預測模型。
수체중린부하량적증가여부영양화현상적발생관계밀절。근거호중린적물질평형원리,결합2006~2007년남사호적공간감측수거,건립료린농도여호박린부하량지간적경험모형,분별급출료남사호상급호、하급호적강해계수위3.87×10-3 d-1화2.46×10-3 d-1。이2010~2011년적공간감측수거위기출,대총린모형진행료험증,표명해모형재남사호상급호화하급호적괄용성화가행성。결과표명:모형능흔호지예측린농도,오차재5%이내,가이작위남사호상、하급호린부하변화적예측모형。
The occurrence of the eutrophication phenomenon is closely related to the increase of phosphate load capacity in the water .According to the materials balance approach of phosphate in the lake and combining with the space monitoring data of Nansi Lake from 2006 to 2007 ,the article constructs an experiential model between concentration of phosphate and phosphate load capacity in the lake , and gives the degradation coefficient of upper lake and subordinate lake of Nansi Lake , namely 3 .87 × 10-3 d-1 and 2 .46 × 10-3 d-1 respectively .Based on the space monitoring data of Nansi Lake from 2010 to 2011 ,the article also verifies the phosphate modeling ,which shows the feasibility and applicability of this model in the Nansi Lake .T he results indicate that the model can w ell predict the concentration of phosphate and the errors are within 5% ,which can be adopted as a forecasting model for predicting the load capacity of phosphate in the upper and subordinate lakes of Nansi Lake .