Measuring Localized Surface Infiltration Rates in Secondary Effluent Recharge Basins

机译：测量次级污水回灌池中的局部表面渗透率

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Soil aquifer treatment is the managed infiltration of water, often treated wastewater in recharge basins. Optimal operation of those basins is related to the rate of infiltration and achieving desired water quality improvement. Most often, a mass balance is used to compute the average basin infiltration rate. This averaging method does not provide insight into potential temporal changes in the infiltration rate during the recharge period and spatially varying rates of infiltration across the basin surface. Knowledge of both these factors is critical to engineering optimal basin operation. In order to address this shortcoming, automated infiltrometers have been developed and tested which can measure local infiltration rates (areal scale of ~0.19 m2e or ~2 ft2e) in near real time (time steps of ~1.0 min). The automated infiltrometers were tested in a recharge basin operated by Tucson Water in Tucson, Arizona and performance data is presented.

机译：土壤含水层处理是对水的管理渗透，通常是补给盆地中经过处理的废水。这些流域的最佳运行与渗透率和实现所需水质改善有关。最常见的是，使用质量平衡来计算平均盆地入渗率。这种平均方法无法洞悉补给期入渗率的潜在时间变化以及整个盆地表面的入渗率在空间上的变化。了解这两个因素对于工程设计最佳流域运行至关重要。为了解决这个缺点，已经开发并测试了自动浸渗仪，它可以近实时（〜1.0分钟的时间步长）测量局部浸润率（〜0.19 m2e或〜2 ft2e的面积）。自动渗透仪在亚利桑那州图森市的图森水务公司的补给池中进行了测试，并提供了性能数据。

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来源
《World water and environmental resources congress 2003 and related symposia》|2003年|p.1-8|共8页
会议地点 Philadelphia PA(US)
作者
Jennifer Gain; Wendell Ela; Robert Arnold; Kevin Lansey;
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Dept. of Chemical and Environmental Engineering, The University of Arizona, Tucson, Arizona 85721, email: jgain@email.arizona.edu;

Dept. of Chemical and Environmental Engineering, The University of Arizona, Tucson, Arizona 85721, email: ela@engr.arizona.edu;

Dept. of Chemical and Environmental Engineering, The University of Arizona, Tucson, Arizona 85721, email: arnold@engr.arizona.edu;

Dept. of Civil Engineering and Engineering Mechanics, The University of Arizona, Tucson, Arizona 85721, email: lansey@engr.arizona.edu.;

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原文格式 PDF
正文语种 eng
中图分类水利资源的管理、保护与改造;
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1. Distributed Temperature Sensing to Measure Infiltration Rates Across a Groundwater Recharge Basin [J] . Medina Ricardo, Pham Christine, Plumlee Megan H., Ground water . 2020,第6期

机译：分布式温度感测，以测量地下水充电盆地的渗透速率
2. Biogeochemical processes in infiltration basins and their impact on the recharging effluent, the soil aquifer treatment (SAT) system of the Shafdan plant, Israel [J] . O. Goren, A. Burg, I. Gavrieli, Applied Geochemistry: Journal of the International Association of Geochemistry and Cosmochemistry . 2014,第Null期

机译：入渗盆地的生物地球化学过程及其对回灌废水的影响，以色列Shafdan工厂的土壤含水层处理（SAT）系统
3. Enhancement of the Efficiency of Infiltration Basins for Effluent Recharge [J] . Journal of Earth Sciences and Geotechnical Engineering . 2014,第1期

机译：增强污水入渗池的效率
4. Pilot study for artificial recharge of groundwater using high rate-infiltration basins in Pintung Plain, Taiwan [C] . C.S. Ting, C.Y. Lin, C.H. Chuang, International symposium on artificial recharge of groundwater . 2002

机译：台湾PINT通渗透盆地地下水的人工充电试验研究
5. Woodchip-amended rapid infiltration basins for enhanced removal of nitrate from secondary effluent. [D] . Smith, Taylor R. 2015

机译：经过伍德基普（Woodchip）修正的快速渗透池，可增强二级废水中硝酸盐的去除率。
6. Enhanced groundwater recharge rates and altered recharge sensitivity to climate variability through subsurface heterogeneity [O] . Andreas Hartmann, Tom Gleeson, Yoshihide Wada, 2017

机译：通过地下异质性提高地下水补给率并改变补给对气候变化的敏感性
7. Effect of Illuviated Deposits on Infiltration Rates and Denitrification During Sewage Effluent Recharge [O] . Montgomery Errol L., Korkosz Emily, Dalton Russell O. Jr., 1977

机译：污水沉积物充填过程中污物堆积对渗透率和反硝化的影响

Measuring Localized Surface Infiltration Rates in Secondary Effluent Recharge Basins

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