With the increasing implementation of continuous monitoring of both discharge and water quality in sewer systems, large data bases are now available. In order to manage large amounts of data and calculate various variables and indicators of interest it is necessary to apply automated methods for data processing. This paper deals with the processing of short time step turbidity time series to estimate TSS (Total Suspended Solids) and COD (Chemical Oxygen Demand) event loads in sewer systems during storm events and their associated uncertainties. The following steps are described: (i) sensor calibration, (ii) estimation of data uncertainties, (iii) correction of raw data, (iv) data pre-validation tests, (v) final validation, and (vi) calculation of TSS and COD event loads and estimation of their uncertainties. These steps have been implemented in an integrated software tool. Examples of results are given for a set of 33 storm events monitored in a stormwater separate sewer system.
From mess to mass: a methodology for calculating storm event pollutant loads with their uncertainties, from continuous raw data time series
M. Métadier, J. -L. Bertrand-Krajewski; From mess to mass: a methodology for calculating storm event pollutant loads with their uncertainties, from continuous raw data time series. Water Sci Technol 1 February 2011; 63 (3): 369–376. doi: https://doi.org/10.2166/wst.2011.230
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