Πέμπτη 14 Μαΐου 2020


Water, Vol. 12, Pages 1401: A GIS Approach to Analyzing the Spatial Pattern of Baseline Resilience Indicators for Community (BRIC)
Water, Vol. 12, Pages 1401: A GIS Approach to Analyzing the Spatial Pattern of Baseline Resilience Indicators for Community (BRIC) Water doi: 10.3390/w12051401 Authors: Chien-Hao Sung Shyue-Cherng Liaw We explore the baseline resilience to natural hazards through the Baseline Resilience Indicators for Community (BRIC) in northeastern Taiwan. Based on the specific situation of our study site, we slightly modified the BRIC. Due to the correlation between some of the subcomponents, we...
Water
Thu May 14, 2020 03:00
Water, Vol. 12, Pages 1400: Granulation of Drinking Water Treatment Residues: Recent Advances and Prospects
Water, Vol. 12, Pages 1400: Granulation of Drinking Water Treatment Residues: Recent Advances and Prospects Water doi: 10.3390/w12051400 Authors: Baiming Ren Yaqian Zhao Bin Ji Ting Wei Cheng Shen Beneficial reuse of drinking water treatment plant residues (WTRs) has been intensively studied worldwide in the last decades, but few engineering applications can be found. The majority of WTRs were directly reused in cake form (after dewatering), e.g., alum sludge cake as main...
Water
Thu May 14, 2020 03:00
Water, Vol. 12, Pages 1398: WASP 8: The Next Generation in the 50-Year Evolution of USEPA’s Water Quality Model
Water, Vol. 12, Pages 1398: WASP 8: The Next Generation in the 50-Year Evolution of USEPA’s Water Quality Model Water doi: 10.3390/w12051398 Authors: Tim Wool Robert B. Ambrose James L. Martin Alex Comer The Water Quality Analysis Simulation Program (WASP) helps users interpret and predict water quality responses to natural phenomena and manmade pollution for various pollution management decisions. WASP is a dynamic compartment-modeling program for aquatic systems, including...
Water
Thu May 14, 2020 03:00
Water, Vol. 12, Pages 1399: Optimal In-Stream Structure Design through Considering Nitrogen Removal in Hyporheic Zone
Water, Vol. 12, Pages 1399: Optimal In-Stream Structure Design through Considering Nitrogen Removal in Hyporheic Zone Water doi: 10.3390/w12051399 Authors: Suning Liu Ting Fong May Chui The hyporheic zone (HZ), the region beneath or alongside a streambed, can play a vital role in a stream ecosystem. Previous studies have examined the impacts of in-stream structures on the HZ and river restoration; however, studies on optimizing the design of in-stream structures are still lacking....
Water
Thu May 14, 2020 03:00

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