非均匀流速和色散系数对溪流中离子输运模式的影响

Eluozo Sn, Ikebude Cf
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摘要

本文给出了河流中离子浓度的变化速率,利用不同的监测点监测其在河流中的浓度变化速率,在对研究环境中的污染源进行调查的基础上开发了传输系统,并将该过程应用于其他环境中,以确定影响污染物传输过程的重要参数。这些变化产生了小溪流速和弥散系数的变化,流速通过不同站点的流速在其沉积过程中表现出非均质性,将这些参数集成到系统中生成导出的模拟值,图形表示体验随着距离的增加而减小,这些观测到的情况是由于不同图中水流流速的变化导致小溪流速的变化。观察这些条件对系统施加压力,确定不同的浓度率,这些数字反映了不同的站点,通过实验数据验证了预测值,进行模型验证,生成的结果超过了允许的限制,作为0.3Mg/L的可接受标准,由于确定了不同位置的离子含量率,因此研究势在必行。在研究环境中观察到它们的影响参数,观察到反映在溪流中施加压力的重要参数的浓度率,这些都是在研究环境中确定的,证明了研究区域离子浓度模型的有效性。
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Heterogeneous velocity and dispersions coefficient influence on ionic transport model in creeks
This paper shows the rate of ionic concentration in the creek, different station point were used to monitor their variation rates of concentration in the creek, the transport system were developed based on the investigation carried out to observed the source of contamination in the study environment, the process were applied in other to determine the significant parameters that influence the transport process of the contaminant, these generates variations of the creek velocity and dispersion coefficient, the flow rates experienced heterogeneity in its depositions through its velocity rates at different station points, such parameters were integrated in the system to generated derived simulation values, the graphical representation experience decrease with respect to increase in distance, these condition observed were due to variations of the creek flow rates through velocity of flows in different figures, such conditions were observed to pressured the system that determine the concentration rates at different figures, these figures reflects different station points that validated the predictive values through experimental data for model validation, the generated results were above the permissible limited as an acceptable standard of 0.3Mg/L, the study is imperative because the rate of ionic content in different locations has been determined, their influential parameters has be observed in the study environment, there rates of concentrations which reflects the significant parameters that pressured it transport process in the creek has been observed, these were all determined in the study environment, proofing the validation of the model for ionic concentration in the study area.
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