Quantify and visualise the risks and potential impact of an oil spill on the environment using this dynamic module to model and predict the movement, transformation and weathering of spilled and dissolved oil. It is typically used in cooling water and wastewater discharge studies. This module simulates the transport, dispersion and decay of dissolved or suspended substances. The Flexible Mesh version, which uses a depth and surface adaptive vertical grid, is particularly suitable in areas with a high tidal range. It includes a wide range of hydraulic phenomena in the simulations and it can be used for any 3D free surface flow. This module simulates the water level variations and flows in response to a variety of forcing functions. Price per 25 users per year for an annual subscription MIKE ECO Lab includes templates for modelling of biological processes (including BOD, DO and E.Coli) and Hydrogen Sulphide (H2S). This module allows modelling of all kinds of water quality aspects, the fate of dissolved substances, or biological relations on population or individual level in sanitary systems and combined systems. This module includes pollution transport by advection and dispersion including fine sediments as well as sediment transport of coarse sediments. It makes the definition of complex operational logic for regulators. This module features advanced real-time control capabilities. Also, an RDI module for the generation of continuous inflow typically applied for simulating slow response inflows, such as infiltration. This module includes multiple rainfall-runoff models such as time area method, kinematic wave, linear reservoir and UHM. Design and optimisation of real-time controls. Continuous simulations involving RDI and long-term statistics.Simulation of partially full, full and pressurised pipes and open channels.Standard and flexible cross-sections, weirs, orifices, pumps, valves, flow regulators and storm water inlets. Circular manholes, junctions, retention basins, soakaways.MIKE1D Pipeflow simulates unsteady flow in pipe and channel networks, including: Catchment rainfall routing and infiltration with option of modelling the effects from I/I, LIDS, snow pack and groundwater.Subcritical and supercritical flow conditions in partially full, full and pressurised pipes and open channels.Links, pumps, orifices, weirs, outlets, transects and regulators Junctions, outfalls, dividers and storage units. The MIKE+ SWMM moduleincludes the US-EPA SWMM5 engine for modelling stormwater and wastewater systems from primarily urban areas.This allows you to simulate unsteady flow in pipe and channel networks including:
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