Fate of emerging and priority micropollutants during the sewage sludge treatment: Case study of Paris conurbation. Part 1: Contamination of the different types of sewage sludge

Mailler, Romain; Gaspéri, Johnny; Patureau, Dominique; Vulliet, Emmanuelle; Delgenes, N.; Danel, A.; Deshayes, Steven; Eudes, Véronique; Guérin, Sabrina; Moilleron, Régis; Chebbo, Ghassan; Rocher, Vincent

doi:10.1016/j.wasman.2016.11.010

Cited by 78 publications

(36 citation statements)

References 69 publications

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“…Some of these studies indicated that concentrations of DEHP change annually as a function of season and runoff, with the highest concentrations of DEHP occurring during the rainy season, the lower concentrations during the dry season, and the lowest concentrations during the transition seasons [16]. Comparing our maximum concentrations with the maximum Kd = K oc × f oc concentrations from other countries, for example, in sewage sludge from France (Paris), 29 times lower values for NP, ten times higher values for NP1EO, 57 times higher values for NP2EO, and 1.4 times higher values for DEHP were observed as those for Italy [17]. Furthermore, if comparing our maximum concentrations (for Italy) with maximum concentrations in sewage sludge samples from Greece (Athens, Patras), 160 times higher values for NP, three times higher values for the sum of NP1EO and NP2EO, and nine times higher values for DEHP were observed in the Greek sewage sludge samples [18].…”

Section: Resultssupporting

confidence: 58%

Sewage sludge for sustainable agriculture: contaminants’ contents and potential use as fertilizer

Lamastra

Suciu

Trevisan

2018

Chem. Biol. Technol. Agric.

159

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Background: Sewage sludge, the inevitable byproduct of municipal wastewater-treatment plant operation, is a key issue in many countries due to its increasing volume and the impacts associated with its disposal. According to the report of European Commission published in 2010, 39% of sewage sludge produced in the European Union is recycled into agriculture. Management options require extensive waste characterization, since many of them may contain compounds, which could be harmful to the ecosystem, such as heavy metals, organic pollutants, etc. The present study aims to show the results of 2 years' sampling of sewage sludge-based on 130 samples collected from 35 wastewater-treatment plants situated in the North of Italy-and to assess its suitability as soil fertilizer regarding contents of nonylphenol (NP), nonylphenolethoxylates (NPnEOs), and phthalates (DEHP). Results: An effective analytic method for organic pollutants detection in the sewage sludge has been developed, showing an excellent repeatability and recoveries. Ecotoxicological risk assessment was evaluated using risk quotients (RQs) for sludge-amended soil. Most of the analyzed samples do not contain NP, NPnEOs, and DEHP at levels higher than the limit established by the draft-working document of the European Commission on Sludge. The assessment using RQs reports that NP and NPnEOs never give values higher than 1, and for DEHP the obtained RQs exceed the value of 1 just three times. Data obtained were compared to the data from other European and Asiatic countries, showing a huge variability for all the compounds considered. Conclusions: Based on the obtained results, it appears that the proposed EU limits for the selected substances on sewage sludge intended to be used as soil fertilizer in agriculture are sufficiently conservative to avoid negative effects on soil fauna.

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Section: Resultssupporting

confidence: 58%

Sewage sludge for sustainable agriculture: contaminants’ contents and potential use as fertilizer

Lamastra

Suciu

Trevisan

2018

Chem. Biol. Technol. Agric.

159

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“…The mean concentration of PAHs in this study was 2030

dw, much greater than four sludge sites in Taiwan China (750 ng/g dw) [ 11 ], twelves sewage sludge from Beijing, China (1551 ng/g dw) [ 29 ], nineteen sewage sludge from Guangdong Province China (1276 ng/g dw) [ 7 ], but lower than the level in four sewage sludge from Harbin, Northeast China (8200 ng/g) [ 32 ], six sludge from Guangdong, China (3466 ng/g dw) [ 33 ], six Wastewater sludge from Korea (10,400 ng/g dw) [ 30 ], nineteen sludge from Madrid (5118 ng/g dw) [ 34 ], nine sewage sludge from northern and central Tunisia (11,216 ng/g dw) [ 14 ], and eleven sewage sludge from the mainland and Hong Kong, China (30,000 ng/g dw) [ 9 ]. However, the level in this study was very close to three sewage sludge from Paris (2518 ng/g dw) [ 35 ]. The European Union has proposed a limited fixed value of ten PAHs of 6000

for the implementation of sludge to agricultural fertilizer that includes Flua, BaP, IcdP, Ace, BghiP, BkF, Pyr, Phe, Flu, and BbF [ 29 ].…”

Section: Resultsmentioning

confidence: 76%

Determination of Polycyclic Aromatic Hydrocarbons and Their Methylated Derivatives in Sewage Sludge from Northeastern China: Occurrence, Profiles and Toxicity Evaluation

et al. 2021

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This paper assesses the occurrence, distribution, source, and toxicity of polycyclic aromatic hydrocarbons (PAHs), and their methylated form (Me-PAHs) in sewage sludge from 10 WWTPs in Northeastern China was noted. The concentrations of ∑PAHs, ∑Me-PAHs ranged from 567 to 5040 and 48.1 to 479dw, which is greater than the safety limit for sludge in agriculture in China. High and low molecular weight 4 and 2-ring PAHs and Me-PAHs in sludge were prevalent. The flux of sludge PAHs and Me-PAHs released from ten WWTPs, in Heilongjiang province, was calculated to be over 100 kg/year. Principal component analysis (PCA), diagnostic ratios and positive matrix factorization (PMF) determined a similar mixed pyrogenic and petrogenic source of sewage sludge. The average values of Benzo[a]pyrene was below the safe value of 600 dependent on an incremental lifetime cancer risk ILCR of 10−6. Sludge is an important source for the transfer of pollutants into the environment, such as PAHs and Me-PAHs. Consequently, greater consideration should be given to its widespread occurrence.

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“…126 Typically, sewage sludge contains recyclable and agronomical valuable macro-and micro-nutrients. 127 However, it also includes several harmful organic and inorganic pollutants such as heavy metals (e.g., cadmium [ 128,129,130,131,132,133,134 The conversion of sewage sludge to energy (e.g., biofuels, methane, and hydrogen) and/or high-value byproducts (e.g., biofertilizers and glycerols) through biological pathways appears to be a promising and eco-friendly alternative compared to the existing physicochemical and thermal methods. 135,136,137,138 However, the major limitation to the biological conversion of sludge to energy and/or high-value byproducts at an industrial scale is the low productivity and the low yields of the conversion processes due to the complex constituents present in sewage sludge.…”

Section: Resource Recoverymentioning

confidence: 99%

National Alliance for Water Innovation (NAWI) Agriculture Sector Technology Roadmap 2021

Dionysiou¹,

Katz²,

Xu³

et al. 2021

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Cost metrics can include levelized costs of water treatment as well as individual cost components, such capital or operations and maintenance (O&M) costs. Energy PerformanceEnergy performance metrics can include the total energy requirements of the water treatment process, the type of energy required (e.g., thermal vs. electricity), embedded energy in chemicals and materials, and the degree to which alternative energy resources are utilized. Water Treatment PerformanceWater treatment performance metrics can include the percent removal of various contaminants of concern and the percent recovery of water from the treatment train. Human Health and Environment ExternalitiesExternality metrics can include air emissions, greenhouse gas emissions, waste streams, societal and health impacts, land-use impacts. Process AdaptabilityProcess adaptability metrics can include the ability to incorporate variable input water qualities, the ability to incorporate variable input water quantity flows, the ability to produce variable output water quality, and the ability to operate flexibly in response to variable energy inputs.

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Fate of emerging and priority micropollutants during the sewage sludge treatment: Case study of Paris conurbation. Part 1: Contamination of the different types of sewage sludge

Cited by 78 publications

References 69 publications

Sewage sludge for sustainable agriculture: contaminants’ contents and potential use as fertilizer

Sewage sludge for sustainable agriculture: contaminants’ contents and potential use as fertilizer

Determination of Polycyclic Aromatic Hydrocarbons and Their Methylated Derivatives in Sewage Sludge from Northeastern China: Occurrence, Profiles and Toxicity Evaluation

National Alliance for Water Innovation (NAWI) Agriculture Sector Technology Roadmap 2021

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