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WinSLAMM was originally developed to better understand the relationships between sources of urban runoff pollutants and runoff quality. It has been continually expanded since the late 1970s and now includes a wide variety of source area and outfall control practices (infiltration practices, wet detention ponds, porous pavement, street cleaning, catchbasin cleaning, and grass swales). WinSLAMM is strongly based on actual field observations, with minimal reliance on pure theoretical processes that have not been adequately documented or confirmed in the field. WinSLAMM is mostly used as a planning tool, to better understand sources of urban runoff pollutants and their control.
Special emphasis has been placed on small storm hydrology and particulate washoff in WinSLAMM. Many currently available urban runoff models have their roots in drainage design where the emphasis is with very large and rare rains. In contrast, stormwater quality problems are mostly associated with common and relatively small rains. The assumptions and simplifications that are legitimately used with drainage design models are not appropriate for water quality models. WinSLAMM therefore incorporates unique process descriptions to more accurately predict the sources of runoff pollutants and flows for the storms of most interest in stormwater quality analyses. However, WinSLAMM can be effectively used in conjunction with drainage design models to incorporate the mutual benefits of water quality controls on drainage design. WinSLAMM has been used in many areas of North America and has been shown to accurately predict stormwater flows and pollutant characteristics for a broad range of rains, development characteristics, and control practices. As with all stormwater models, WinSLAMM needs to be accurately calibrated and then tested (verified) as part of any local stormwater management effort. WinSLAMM is unique in many aspects. One of the most
important aspects is its ability to consider many stormwater controls (affecting
source areas, drainage systems, and outfalls) together, for a long series of
rains. Another is its ability to accurately describe a drainage area in
sufficient detail for water quality investigations, but without requiring a
great deal of superfluous information that field studies have shown to be of
little value in accurately predicting discharge results. WinSLAMM also applies
stochastic analysis procedures to more accurately represent actual uncertainty
in model input parameters in order to better predict the actual range of outfall
conditions (especially pollutant concentrations). However, the main reason WinSLAMM
was developed was because of errors contained in many existing urban runoff
models. These errors were obvious when comparing actual field measurements to
the solutions obtained from model algorithms.
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Send mail to jvoorhees@winslamm.com with
questions or comments about this web site.
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