Andrea M. Bonetto, Sheiny Tjia-Fleck, Ethan Zeller, B. Wheeler, S. H. Stonedahl
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引用次数: 0
摘要
潜流带是河流下的沉积物区域,在这里水流在返回河流本身之前流过。然而,在自然系统中,由于风暴、潮汐、水坝或冰雪融化,水位和水流速率会发生变化。为了研究非定常条件下的流量,我们建立了一个系统,使我们能够控制水位,从而控制流量。我们使用了一个连接到Arduino板的压力传感器来测量水位。Arduino板使用测量的压力值来控制水泵。当水位低于期望时,水泵将启动,当水位高于期望时,水泵将关闭。这让我们可以保持水位不变,或者让它振荡。然后,我们通过比较我们期望的水位函数与我们的压力传感器测量的水位函数来评估我们的系统,那些由连接到单独的Arduino的压力传感器测量的水位函数,以及我们从系统视频中提取的水位函数。教师赞助人:Susa H. Stonedahl
Analyzing and Designing an Arduino Controlled System to Study the Effect of Changing Water Levels on Water Flow Through Sediments
The hyporheic zone is the region of sediment under a stream where water from the stream flows before returning to the stream itself. Many studies focus on steady water flow through this region, however, in natural systems, water levels and water flow rates change due to storms, tides, dams, or melting snow. To investigate flow under unsteady conditions, we built a system that allows us to control the water level and thus the flow rates. We used a pressure sensor that is connected to an Arduino board to measure the water level. The Arduino board uses the measured pressure value to control a water pump. When the water level is lower than desired, the pump will turn on and when it is higher than desired, it will turn off. This allowed us to hold the water level constant or tell it to oscillate. We then evaluated our system by comparing our desired water level functions to those measured with our pressure sensor, those measured by a pressure transducer connected to a separate Arduino, and those we extracted from videos of our system. Faculty Sponsor: Susa H. Stonedahl
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