基于感潮河网水质模型,完善了其水环境容量的计算方法。
Based on the water quality model for tidal river network, the computational method of aquatic environmental capacity was improved.
进一步建立水动力模型和水质模型的耦合,使之可以应用于闸控感潮河网水环境的模拟。
Further, a coupling model of hydrodynamic model and water quality model was developed and it can be applied to simulate the water environment of a tidal river network controlled by gates.
而河床地形变化引起的三角洲河网区潮汐动力增强,则是感潮河段低水位上升的主要原因。
The strengthening of the tidal power caused by the significant topographic change is responsible for the rise of the low water levels in the tidal reach.
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