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Assessing and Managing Large‐Scale Geochemical Impacts from Groundwater Replenishment with Highly Treated Reclaimed Wastewater
Water Resources Research ( IF 4.6 ) Pub Date : 2020-11-01 , DOI: 10.1029/2020wr028066 Jing Sun 1, 2, 3 , Michael J. Donn 2 , Philippe Gerber 2, 4 , Simon Higginson 5 , Adam J. Siade 2, 3, 6 , David Schafer 2, 3, 6 , Simone Seibert 7 , Henning Prommer 2, 3, 6
Water Resources Research ( IF 4.6 ) Pub Date : 2020-11-01 , DOI: 10.1029/2020wr028066 Jing Sun 1, 2, 3 , Michael J. Donn 2 , Philippe Gerber 2, 4 , Simon Higginson 5 , Adam J. Siade 2, 3, 6 , David Schafer 2, 3, 6 , Simone Seibert 7 , Henning Prommer 2, 3, 6
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ions, as detailed in Water Corporation [2016]. Based on the results of preliminary particle tracking simulations (data not shown) with the PRAMS model for the 30-year predictive period, a suitable subdomain size was selected, covering a model extent of 21.5 km in North-South direction and 15 km in East-West direction (Figures 1 and 2). The injection bores are approximately located at the center of the model domain. While the GWRT-scale RTM employed a spatial discretisation that was too fine to allow for large-scale model predictions, the grid resolution of PRAMS (500 m × 500 m) is too coarse for
中文翻译:
用高度处理的再生废水补充地下水对大规模地球化学影响的评估和管理
离子,详见 Water Corporation [2016]。根据 PRAMS 模型对 30 年预测期的初步粒子跟踪模拟结果(数据未显示),选择了合适的子域大小,覆盖模型范围南北方向 21.5 公里和东方向 15 公里。 - 西方向(图 1 和图 2)。注入孔大约位于模型域的中心。虽然 GWRT 尺度 RTM 采用了太精细的空间离散化,无法进行大规模模型预测,但 PRAMS (500 m × 500 m) 的网格分辨率对于
更新日期:2020-11-01
中文翻译:
用高度处理的再生废水补充地下水对大规模地球化学影响的评估和管理
离子,详见 Water Corporation [2016]。根据 PRAMS 模型对 30 年预测期的初步粒子跟踪模拟结果(数据未显示),选择了合适的子域大小,覆盖模型范围南北方向 21.5 公里和东方向 15 公里。 - 西方向(图 1 和图 2)。注入孔大约位于模型域的中心。虽然 GWRT 尺度 RTM 采用了太精细的空间离散化,无法进行大规模模型预测,但 PRAMS (500 m × 500 m) 的网格分辨率对于
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