水利学报
水利學報
수리학보
2013年
11期
1286-1294
,共9页
唐诗%孙涛%沈小梅%冯美丽
唐詩%孫濤%瀋小梅%馮美麗
당시%손도%침소매%풍미려
溶解氧%浊度%系统动力学模型%黄河口
溶解氧%濁度%繫統動力學模型%黃河口
용해양%탁도%계통동역학모형%황하구
Dissolved oxygen%turbidity%systemic dynamics model%Yellow River Estuary
考虑河口水体浊度变化对水下光照条件的影响,建立了河口溶解氧系统动力学模型。模型包含光合作用、呼吸作用、大气复氧过程、生化需氧量及氮质需氧量5个过程。在光合作用子模型中通过考虑光衰减系数对浊度的响应关系,实现了关于水体浊度变化对河口溶解氧的影响效应分析。基于野外实地监测数据的对比分析,明确了不同光衰减系数-浊度模型的差异,探讨了二者为对数关系时拟合效果最优的合理性。对黄河口不同季节溶解氧模拟结果表明,日变化呈现单峰单谷的波动状态。浊度的增加将通过降低透光度影响到水体溶解氧水平。不同季节浊度扰动对溶解氧的影响有显著差异。水体溶解氧对温度变化最敏感,风速和BOD衰减速率常数次之,对盐度和水深变化不敏感。
攷慮河口水體濁度變化對水下光照條件的影響,建立瞭河口溶解氧繫統動力學模型。模型包含光閤作用、呼吸作用、大氣複氧過程、生化需氧量及氮質需氧量5箇過程。在光閤作用子模型中通過攷慮光衰減繫數對濁度的響應關繫,實現瞭關于水體濁度變化對河口溶解氧的影響效應分析。基于野外實地鑑測數據的對比分析,明確瞭不同光衰減繫數-濁度模型的差異,探討瞭二者為對數關繫時擬閤效果最優的閤理性。對黃河口不同季節溶解氧模擬結果錶明,日變化呈現單峰單穀的波動狀態。濁度的增加將通過降低透光度影響到水體溶解氧水平。不同季節濁度擾動對溶解氧的影響有顯著差異。水體溶解氧對溫度變化最敏感,風速和BOD衰減速率常數次之,對鹽度和水深變化不敏感。
고필하구수체탁도변화대수하광조조건적영향,건립료하구용해양계통동역학모형。모형포함광합작용、호흡작용、대기복양과정、생화수양량급담질수양량5개과정。재광합작용자모형중통과고필광쇠감계수대탁도적향응관계,실현료관우수체탁도변화대하구용해양적영향효응분석。기우야외실지감측수거적대비분석,명학료불동광쇠감계수-탁도모형적차이,탐토료이자위대수관계시의합효과최우적합이성。대황하구불동계절용해양모의결과표명,일변화정현단봉단곡적파동상태。탁도적증가장통과강저투광도영향도수체용해양수평。불동계절탁도우동대용해양적영향유현저차이。수체용해양대온도변화최민감,풍속화BOD쇠감속솔상수차지,대염도화수심변화불민감。
To determine the effect of turbidity variation on dissolved oxygen in estuarine areas, a system dynamics model of dissolved oxygen has been developed. It offers us a closer insight to the effect of turbidi-ty on underwater light climate, sequentially the photosynthetic yield. The one-dimension model comprises five parts:re-aeration,biochemical oxygen demand,nitrogenous oxygen demand,photosynthesis and respira-tion of the phytoplankton. According to the comparison, it is revealed that the model including logarithmic relationship between light attenuation coefficient and turbidity is the best one. The diel dissolved oxygen dy-namics show that fluctuation changes with single peak-valley type. Turbidity is an important factor which controls the DO dynamics in the estuary and varies inversely with DO. There are significant differences in the responses of DO to turbidity disturbances at each season. Temperature is the most sensitive parameter followed by wind speed and BOD decay rate coefficient.
