Evolution of the sewage treatment plant model SimpleTreat: Applicability domain and data requirements

Franco, Antonio; Struijs, Jeroen N.; Gouin, Todd; Price, Oliver R.

doi:10.1002/ieam.1414

Cited by 32 publications

(31 citation statements)

References 24 publications

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“…SimpleTreat 3.1 is recommended in regulatory environmental risk assessments of chemicals in home and personal care products, industrial chemicals (REACH) (EC ), biocides (Biocidal Products Regulation) (EC ) and pharmaceuticals (European Medicines Agency ). The model has been updated to incorporate new algorithms to improve the estimation of the partitioning behavior of ionizable chemicals, making it applicable to a wider range of substances (Franco et al this issue). SimpleTreat 3.1 is usually run with a basic input data set and due to its worst‐case parameterization, predictions tend to be conservative.…”

Section: Introductionsupporting

confidence: 85%

“…SimpleTreat 3.1 is usually run with a basic input data set and due to its worst‐case parameterization, predictions tend to be conservative. Results of the evaluation study with 9 test chemicals, including neutral and ionizable substances, have shown that SimpleTreat underestimates the removal efficiency, in particular for readily and inherently biodegradable substances (Franco et al this issue), in agreement with previous observations (HERA ; Geerts et al ). The underestimation of removal efficiency is in most cases due to the default first‐order biotransformation rate constants, assigned based on the non‐numerical results of screening biodegradability tests (i.e., OECD 301 or OECD 302) and applied only to the fraction of chemical dissolved in water.…”

Section: Introductionsupporting

confidence: 85%

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Evolution of the sewage treatment plant model SimpleTreat: Use of realistic biodegradability tests in probabilistic model simulations

Franco

Struijs

Gouin

et al. 2013

Integr Environ Assess Manag

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Given the large number of chemicals under regulatory scrutiny, models play a crucial role in the screening phase of the environmental risk assessment. The sewage treatment plant (STP) model SimpleTreat 3.1 is routinely applied as part of the European Union System for the Evaluation of Substances to estimate the fate and elimination of organic chemicals discharged via sewage. SimpleTreat estimates tend to be conservative and therefore only useful for lower-tier assessments. A probabilistic version of SimpleTreat was built on the updated version of the model (SimpleTreat 3.2, presented in a parallel article in this issue), embracing likeliest as well as worst-case conditions in a statistically robust way. Probabilistic parameters representing the variability of sewage characteristics, STP design, and operational parameters were based on actual STP conditions for activated sludge plants in Europe. An evaluation study was carried out for 4 chemicals with distinct sorption and biodegradability profiles: tonalide, triclosan, trimethoprim, and linear alkylbenzene sulfonate. Simulations incorporated information on biodegradability simulation studies with activated sludge (OECD 314B and OECD 303A tests). Good agreement for both median values and variability ranges was observed between model estimates and monitoring data. The uncertainty analysis highlighted the importance of refined data on partitioning and biodegradability in activated sludge to achieve realistic estimates. The study indicates that the best strategy to refine the exposure assessment of down-the-drain chemicals is by integrating higher-tier laboratory data with probabilistic STP simulations and, if possible, by comparing them with monitoring data for validation.

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Section: Introductionsupporting

confidence: 85%

Section: Introductionsupporting

confidence: 85%

Evolution of the sewage treatment plant model SimpleTreat: Use of realistic biodegradability tests in probabilistic model simulations

Franco

Struijs

Gouin

et al. 2013

Integr Environ Assess Manag

Self Cite

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“…Consequently, models have also been developed for APIs in different ion classes (Dobbs et al, 1989, Franco et al, 2009, Franco et al, 2013, Franco and Trapp, 2008, Guo et al, 2004, Sabljic et al, 1995). Recent work by Sathyamoorthy and Ramsburg (2013) derived separate multivariate models to predict K d values (at the experimental pH used for the measurements) for uncharged, and positively and negatively charged APIs, and combined models for their whole dataset.…”

Section: Introductionmentioning

confidence: 99%

Quantitative structure-property relationships for predicting sorption of pharmaceuticals to sewage sludge during waste water treatment processes

Berthod

Whitley

Roberts

et al. 2017

Science of The Total Environment

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Understanding the sorption of pharmaceuticals to sewage sludge during waste water treatment processes is important for understanding their environmental fate and in risk assessments. The degree of sorption is defined by the sludge/water partition coefficient (Kd). Experimental Kd values (n = 297) for active pharmaceutical ingredients (n = 148) in primary and activated sludge were collected from literature. The compounds were classified by their charge at pH 7.4 (44 uncharged, 60 positively and 28 negatively charged, and 16 zwitterions). Univariate models relating log Kd to log Kow for each charge class showed weak correlations (maximum R2 = 0.51 for positively charged) with no overall correlation for the combined dataset (R2 = 0.04). Weaker correlations were found when relating log Kd to log Dow. Three sets of molecular descriptors (Molecular Operating Environment, VolSurf and ParaSurf) encoding a range of physico-chemical properties were used to derive multivariate models using stepwise regression, partial least squares and Bayesian artificial neural networks (ANN). The best predictive performance was obtained with ANN, with R2 = 0.62–0.69 for these descriptors using the complete dataset. Use of more complex Vsurf and ParaSurf descriptors showed little improvement over Molecular Operating Environment descriptors. The most influential descriptors in the ANN models, identified by automatic relevance determination, highlighted the importance of hydrophobicity, charge and molecular shape effects in these sorbate-sorbent interactions. The heterogeneous nature of the different sewage sludges used to measure Kd limited the predictability of sorption from physico-chemical properties of the pharmaceuticals alone. Standardization of test materials for the measurement of Kd would improve comparability of data from different studies, in the long-term leading to better quality environmental risk assessments.

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“…For TCS and CIP, this resulted from an underestimation of removal via sorption to sewage sludge. Accordingly, Franco et al (2013a) suggested using measured K d values as input to SimpleTreat, though neglecting the impact of different sorption potentials of neutral and ionized species.…”

Section: Fate In Wwtpmentioning

confidence: 99%

From consumption to harvest: Environmental fate prediction of excreted ionizable trace organic chemicals

2015

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Evolution of the sewage treatment plant model SimpleTreat: Applicability domain and data requirements

Cited by 32 publications

References 24 publications

Evolution of the sewage treatment plant model SimpleTreat: Use of realistic biodegradability tests in probabilistic model simulations

Evolution of the sewage treatment plant model SimpleTreat: Use of realistic biodegradability tests in probabilistic model simulations

Quantitative structure-property relationships for predicting sorption of pharmaceuticals to sewage sludge during waste water treatment processes

From consumption to harvest: Environmental fate prediction of excreted ionizable trace organic chemicals

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