Hydraulic Engineering II
Coordonnateur : Xie Liquan
Hydraulic research is developing beyond traditional civil engineering, since the number of natural hazards increased in recent years, and so did the extent and scope of structural safety assessment and environmental research. Hydraulic Engineering II contains 44 technical papers from the 2nd SREE Conference on Hydraulic Engineering (CHE 2013, Hong Kong, 2-3 November 2013, including the Third SREE Workshop on Environment and Safety Engineering, WESE 2013), discusses recent advances and issues, and identifies challenges associated with engineering applications in hydraulic engineering. The contributions showcase recent developments in the areas of hydraulic engineering and environmental engineering, and other related fields.
The sections on hydraulic engineering mainly focus on river engineering and sediment transport, flood hazards and innovative control measures, rainfall modelling, dam safety, slope stability, environmental hydraulics and hydrology, while the contributions related to environmental issues focus on environmental prediction and control techniques in environmental geoscience, environmental ecology, water pollution and ecosystem degradation, applied meteorology, coastal engineering, safety engineering and environmental pollution control.
Hydraulic Engineering II will be invaluable to academics and professionals in both hydraulic and environmental engineering.
Date de parution : 11-2013
17.4x24.6 cm
Thème de Hydraulic Engineering II :
Mots-clés :
UHPLC; Bottom Sediment; bottom; Faecal Bacteria; sediment; Partition Coefficients Increasing; partition; Wastewater Samples; coefficient; Partition Coefficients; faecal; Sediment Decreased; bacteria; Bacteria Concentration; wastewater; Solid Phase Micro-Extraction; samples; SPME; increase; Soluble Epoxide Hydrolase; concentration; Eluant Volume; BEH C18 Column; Aqueous Environmental Samples; Flood Periods; Bonna Agela Technologies; DLLME; AUS; Liquid Liquid Microextraction; Spiked Recoveries; SPE; Water Column