A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
A state-of-the-art and assessment of the USEPA's Storm and Combined Sewer Program collection system research pertaining to management alternatives for wet- and dry-weather wastewater transport and interception is presented. These include: maintenance; catchbasins; new sewer design; sewer flushing; polymer injection; infiltration/inflow controls including inflow reduction, Insituform, impregnated concrete pipe and trenchless sewer; upstream storage/attenuation; flow routing and inpipe storage; new types of flow regulators, fluidic regulator and Hydrobrake; and a new rubber 'duck-bill' tide gate.
A state-of-the-art and assessment of the USEPA's Storm and Combined Sewer Program collection system research pertaining to management alternatives for wet- and dry-weather wastewater transport and interception is presented. These include: maintenance; catchbasins; new sewer design; sewer flushing; polymer injection; infiltration/inflow controls including inflow reduction, Insituform, impregnated concrete pipe and trenchless sewer; upstream storage/attenuation; flow routing and inpipe storage; new types of flow regulators, fluidic regulator and Hydrobrake; and a new rubber 'duck-bill' tide gate.
Overview of the U.S. Environmental Protection Agency's Storm and Combined Sewer Program Collection System Research
R. Field (author)
1981
14 pages
Report
No indication
English
Civil Engineering , Water Pollution & Control , Combined sewers , Storm sewers , Reviews , Droughts , Flooding , Maintenance , Flushing , Flow rate , Flood routing , Tidewater , Optimization , Cost effectiveness , Drainage , Overflows , Catch basins , Water pollution control , Reprints , Duck bill tide gate
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