封面图片
2023年, 第17卷 第7期
Front Cover Story (See: Hailong Yin, Yiyuan Lin, Huijin Zhang, Ruibin Wu, Zuxin Xu , 2023, 17(7): 85)
Water quality restoration in rivers requires identification of the locations and discharges of pollution sources, and a reliable mathematical model to cost-effectively accomplish this identification is essential. A hydrodynamic-Bayesian inference model was developed to inversely estimate pollution sources for both accidental preparedness and normal management of the allowable pollutant discharge. The proposed modeling is superior to solve high-dimensional optimization problems according to known river water levels at pre-set monitoring sites. Using this approach, the labor intensity to identify sewage outfalls is only 5%–7% of that based on a direct hydrologic survey.[展开] ...
ISSN 2095-2201N (Print)
ISSN 2095-221X (Online)
CN 10-1013/X
Postal Subscription Code 80-973
原刊名 Frontiers of Environmental Science & Engineering in China 2018 Impact Factor: 3.883