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1.	Edefell, Ellen, et al. (author) Digging deep into a GAC filter – Temporal and spatial profiling of adsorbed organic micropollutants 2022 In: Water Research. - : Elsevier BV. - 0043-1354 .- 1879-2448. ; 218 Journal article (peer-reviewed)abstract A large pilot-scale granular activated carbon (GAC) filter was operated downstream in a full-scale wastewater treatment plant to remove organic micropollutants. To describe the spatial and temporal developments of micropollutant adsorption profiles in the GAC filter, micropollutants were extracted from GAC media taken at various filter depths and number of treated bed volumes. At a low number of treated bed volumes (2600 BVs), most micropollutants were adsorbed in the top layers of the filter. At increasing number of treated bed volumes (7300–15,500 BVs), the adsorption front for micropollutants progressed through the filter bed at varying rates, with sulfamethoxazole, fluconazole, and PFOS reaching the bottom layer before carbamazepine and other well-adsorbing micropollutants, such as propranolol and citalopram. Higher amounts of adsorbed micropollutants in the bottom layer of the filter bed resulted in decreased removal efficiencies in the treated wastewater. Mass estimations indicated biodegradation for certain micropollutants, such as naproxen, diclofenac, and sulfamethoxazole. A temporary increase in the concentration of the insecticide imidacloprid could be detected in the filter indicating that extraction of adsorbed micropollutants could provide an opportunity for backtracking of loading patterns.
2.	Kharel, Suman, et al. (author) Ozone dose dependent formation and removal of ozonation products of pharmaceuticals in pilot and full-scale municipal wastewater treatment plants 2020 In: Science of the Total Environment. - : Elsevier BV. - 0048-9697. ; 731 Journal article (peer-reviewed)abstract The removal of micropollutants from municipal wastewater is challenged by the number of compounds with diverse physico-chemical properties. Ozonation is increasingly used to remove micropollutants from wastewater. However, ozonation does not necessarily result in complete mineralization of the organic micropollutants but rather transforms them into new compounds which could be persistent or have adverse environmental effects. To explore ozone dose dependency of the formation and successive removal of ozonation products, two pilot-scale and one full-scale ozonation plants were operated subsequent to a conventional activated sludge treatment. The results from these trials indicated that the concentrations of several N-oxides, such as Erythromycin N-oxide, Venlafaxine N-oxide and Tramadol N-oxide, increased up to an ozone dose of 0.56–0.61 mg O3/mg DOC while they decreased at elevated doses of 0.7–1.0 mg O3/mg DOC. Similar results were also obtained for two transformation products of Diclofenac (Diclofenac 2,5-quinone imine and 1-(2,6-dichlorophenyl)indolin-2,3-dione) and one transformation product of Carbamazepine (1-(2-benzoic acid)-(1H,3H)-quinazoline-2,4-dione), where the highest concentrations appeared around 0.27–0.31 mg O3/mg DOC. The formation maximum of a given compound occurred at a specific ozone dose that is characteristic for each compound, but seemed to be independent of the wastewater used for the experiments at the two pilots and the full-scale plant.
3.	Kharel, Suman, et al. (author) Removal of pharmaceutical metabolites in wastewater ozonation including their fate in different post-treatments 2021 In: Science of the Total Environment. - : Elsevier BV. - 0048-9697. ; 759 Journal article (peer-reviewed)abstract Advanced treatment technologies for the removal of pharmaceuticals and other organic micropollutants in WWTPs primarily target the removal of parent compounds. Nevertheless, the removal of metabolites originating from human- or microbial metabolism during biological treatment needs comparable consideration, as some of them might be present in high concentrations and contribute to toxicity. This study was conducted to elucidate the removal of human and microbial metabolites of pharmaceuticals as a function of the specific ozone dose. Ozonation was performed on four sites with two pilot- and two full-scale plants operated downstream of conventional activated sludge plants. The ozone reactivity of all metabolites (expressed as the ozone dose to remove 90% of the compound/decadic ozone dose) was lower than those of their parent compounds. The decadic ozone dose was 1.0, 1.3 and 1.1 mg O3/mg DOC for Epoxy-carbamazepine, Di-OH-carbamazepine and N-Desmethyl tramadol, respectively. 20–40% of the remaining metabolites were removed in a polishing sand/BAC-filter (biological activated carbon). Similar removal was observed for Epoxy-carbamazepine, Di-OH-carbamazepine and Hydroxy-diclofenac in a constructed wetland. However, the sand/anthracite filter had no effect. All four metabolites were removed in a GAC (granulated activated carbon) filter.
4.	Betsholtz, Alexander, et al. (author) New Perspectives on the Interactions between Adsorption and Degradation of Organic Micropollutants in Granular Activated Carbon Filters 2024 In: Environmental Science and Technology. - : American Chemical Society. - 0013-936X .- 1520-5851. ; 58:26 Journal article (peer-reviewed)abstract The removal of organic micropollutants in granular activated carbon (GAC) filters can be attributed to adsorption and biological degradation. These two processes can interact with each other or proceed independently. To illustrate the differences in their interaction, three 14C-labeled organic micropollutants with varying potentials for adsorption and biodegradation were selected to study their adsorption and biodegradation in columns with adsorbing (GAC) and non-adsorbing (sand) filter media. Using 14CO2 formation as a marker for biodegradation, we demonstrated that the biodegradation of poorly adsorbing N-nitrosodimethylamine (NDMA) was more sensitive to changes in the empty bed contact time (EBCT) compared with that of moderately adsorbing diclofenac. Further, diclofenac that had adsorbed under anoxic conditions could be degraded when molecular oxygen became available, and substantial biodegradation (≥60%) of diclofenac could be achieved with a 15 min EBCT in the GAC filter. These findings suggest that theretention of micropollutants in GAC filters, by prolonging the micropollutant residence time through adsorption, can enable longer time periods for degradations than what the hydraulic retention time would allow for. For the biologically recalcitrant compound carbamazepine, differences in breakthrough between the 14C-labeled and nonradiolabeled compounds revealed a substantial retention via successive adsorption-desorption, which could pose a potential challenge in the interpretation of GAC filter performance.
5.	Betsholtz, Alexander, et al. (author) Ozonation of 14C-labeled micropollutants – mineralization of labeled moieties and adsorption of transformation products to activated carbon 2022 In: Water Research. - : Elsevier BV. - 0043-1354 .- 1879-2448. ; 221 Journal article (peer-reviewed)abstract Ozonation transformation products (OTPs) are largely unknown compounds that are formed during the ozonation of micropollutants, and it is uncertain to which extent these compounds can be removed by subsequent adsorption to activated carbon. Thus, 14C-labeled micropollutants were ozonated to generate 14C-labeled OTPs, for which the adsorption of the sum of all 14C-labeled OTPs to activated carbon could be determined, based on the adsorption of the labeled carbon. Further, 14CO2 traps were used to examine the mineralization of 14C-labeled moieties during ozonation. 14CO2-formation revealed a partial mineralization of the 14C-labeled moieties in all compounds except for propyl-labeled bisphenol A and O-methyl-labeled naproxen. A similar degree of mineralization was noted for different compounds labeled at the same moiety, including the carboxylic carbon in diclofenac and ibuprofen (∼40% at 1 g O3/g DOC) and the aniline ring in sulfamethoxazole and sulfadiazine (∼30% at 1 g O3/g DOC). Aromatic ring cleavage was also confirmed for bisphenol A, sulfamethoxazole, and sulfadiazine through the formation of 14CO2. The adsorption experiments demonstrated increased adsorption of micropollutants to powdered activated carbon after ozonation, which was connected to a decreased adsorption of dissolved organic matter (DOM). Conversely, the OTPs showed a substantial and successive decline in adsorption at increased ozone doses for all compounds, likely due to decreased hydrophobicity and aromaticity of the OTPs. These findings indicate that adsorption to activated carbon alone is not a viable removal method for a wide range of ozonation transformation products.
6.	Betsholtz, Alexander, et al. (author) Tracking 14C-labeled organic micropollutants to differentiate between adsorption and degradation in GAC and biofilm processes 2021 In: Environmental Science and Technology. - : The American Chemical Society (ACS). - 0013-936X .- 1520-5851. ; 55:16, s. 11318-11327 Journal article (peer-reviewed)abstract Granular activated carbon (GAC) filters can be used to reduce emissions of organic micropollutants via municipal wastewater, but it is still uncertain to which extent biological degradation contributes to their removal in GAC filters. 14C-labeled organic micropollutants were therefore used to distinguish degradation from adsorption in a GAC-filter media with associated biofilm. The rates and extents of biological degradation and adsorption were investigated and compared with other biofilm systems, including a moving bed biofilm reactor (MBBR) and a sand filter, by monitoring 14C activities in the liquid and gas phases. The microbial cleavage of ibuprofen, naproxen, diclofenac, and mecoprop was confirmed for all biofilms, based on the formation of 14CO2, whereas the degradation of 14C-labeled moieties of sulfamethoxazole and carbamazepine was undetected. Higher degradation rates for diclofenac were observed for the GAC-filter media than for the other biofilms. Degradation of previously adsorbed diclofenac onto GAC could be confirmed by the anaerobic adsorption and subsequent aerobic degradation by the GAC-bound biofilm. This study demonstrates the potential use of 14C-labeled micropollutants to study interactions and determine the relative contributions of adsorption and degradation in GAC-based treatment systems.
7.	Betsholtz, Alexander, et al. (author) Tracking 14C-Labeled Organic Micropollutants to Differentiate between Adsorption and Degradation in GAC and Biofilm Processes 2021 In: Environmental Science and Technology. - : American Chemical Society (ACS). - 0013-936X .- 1520-5851. ; 55:16, s. 11318-11327 Journal article (peer-reviewed)abstract Granular activated carbon (GAC) filters can be used to reduce emissions of organic micropollutants via municipal wastewater, but it is still uncertain to which extent biological degradation contributes to their removal in GAC filters. 14C-labeled organic micropollutants were therefore used to distinguish degradation from adsorption in a GAC-filter media with associated biofilm. The rates and extents of biological degradation and adsorption were investigated and compared with other biofilm systems, including a moving bed biofilm reactor (MBBR) and a sand filter, by monitoring 14C activities in the liquid and gas phases. The microbial cleavage of ibuprofen, naproxen, diclofenac, and mecoprop was confirmed for all biofilms, based on the formation of 14CO2, whereas the degradation of 14C-labeled moieties of sulfamethoxazole and carbamazepine was undetected. Higher degradation rates for diclofenac were observed for the GAC-filter media than for the other biofilms. Degradation of previously adsorbed diclofenac onto GAC could be confirmed by the anaerobic adsorption and subsequent aerobic degradation by the GAC-bound biofilm. This study demonstrates the potential use of 14C-labeled micropollutants to study interactions and determine the relative contributions of adsorption and degradation in GAC-based treatment systems.
8.	Björklund, Erland, et al. (author) Utsläpp av 33 antibiotika, läkemedel och andra mikroföroreningar från Skånes Universitetssjukhus (SUS) i Malmö till Sjölunda avloppsreningsverk 2020 Reports (other academic/artistic)abstract Under februari 2019 togs 7 dygnsprover på det totala utgående flödet av avloppsvatten från Skånes Universitetssjukhus (SUS) i Malmö samt på det totala inkommande flödet av avlopssvatten till Sjölunda avloppsreningsverk i Malmö, som är Malmös största reningsverk. Syftet var att få kunskap om utgående koncentrationer av läkemedel från sjukhuset i relation till de inkommande koncentrationerna till avloppsreningsverket. Proverna togs från måndag till söndag under en och samma vecka och analyserades med avseende på förekomst av 33 läkemedel, antibiotika och andra mikroföroreningar. Detta innefattade 9 st antibiotika, 19 st läkemedel samt 5 andra kemikalier.
9.	Björklund, Erland, et al. (author) Utsläpp av 33 antibiotika, läkemedel och andra mikroföroreningar från Skånes Universitetssjukhus (SUS) i Malmö till Sjölunda avloppsreningsverk 2020 Book (other academic/artistic)abstract Under februari 2019 togs 7 dygnsprover på det totala utgående flödet av avloppsvatten från Skånes Universitetssjukhus (SUS) i Malmö samt på det totala inkommande flödet av avlopssvatten till Sjölunda avloppsreningsverk i Malmö, som är Malmös största reningsverk. Syftet var att få kunskap om utgående koncentrationer av läkemedel från sjukhuset i relation till de inkommande koncentrationerna till avloppsreningsverket. Proverna togs från måndag till söndag under en och samma vecka och analyserades med avseende på förekomst av 33 läkemedel, antibiotika och andra mikroföroreningar. Detta innefattade 9 st antibiotika, 19 st läkemedel samt 5 andra kemikalier.
10.	Cimbritz, Michael, et al. (author) Begreppens betydelse : om facktermer i populärvetenskapliga texter och betydelsen för ett svenskt vetenskapsspråk 2015 In: LU:s femte högskolepedagogiska utvecklingskonferens. Conference paper (other academic/artistic)
11.	Cimbritz, Michael (author) Dissolved Air Flotation and Microscreening for Particle Separation in Wastewater Treatment 2006 Doctoral thesis (other academic/artistic)abstract Particle separation is one of the fundamental processes in wastewater treatment and a good understanding of the basic separation mechanisms ? sedimentation, flotation and filtration ? is critical in the design of wastewater treatment systems. Upgrading of treatment plants for enhanced primary treatment and effluent polishing are current examples of applications where effective, high-rate separation methods are of interest. Dissolved air flotation (DAF) and microscreening can be used in both applications. The purpose of this work was to study the separation mechanisms in DAF and disc and drum filtration ? referred to as microscreening ? by means of literature studies, particle size analysis and particle visualisation. The processes were studied mainly in the context of applications within tertiary treatment. Furthermore, a novel application based on chemically enhanced primary treatment utilising microscreening for floc removal was tested. Separation efficiency was found to increase with increasing particle size in DAF. Furthermore, particles were preferably separated upstream, i.e. close to the contact zone. Aggregates showed a great variation in rise rates. Relatively small aggregates, with single bubbles attached, showed relatively low rise rates, while large aggregates with numerous bubbles attached showed very high rise rates. Large aggregates rising very quickly could be one explanation of the effective upstream removal of solids. Another explanation could be the bulk flow simply directing flocs to the surface. With particles being separated upstream the straightforward application of the theory of hydraulic surface loading is not necessarily completely valid. With respect to microscreening it was shown that physical blocking of particles was the main separation mechanism. Floc strength and particle size were identified as key parameters in understanding and design of microscreens. Although it is an accepted and known technology, the areas of application of microscreening can be increased. The suitability in floc removal after a post-denitrifying biofilm process, the Kaldnes Moving Bed? Process, was demonstrated. Furthermore, a novel application was introduced where microscreening was used in chemically enhanced primary treatment resulting in high removal rates of SS, BOD, COD and total phosphorus at comparatively high filtration rates.
12.	Cimbritz, Michael, et al. (author) PAC dosing to an MBBR – Effects on adsorption of micropollutants, nitrification and microbial community 2019 In: Science of the Total Environment. - : Elsevier BV. - 0048-9697 .- 1879-1026. ; 677, s. 571-579 Journal article (peer-reviewed)abstract Two nitrifying MBBR reactors were operated in parallel, one with PAC dosing and one without, to determine the effects of PAC dosing on nitrification and micropollutant adsorption in municipal wastewater. The removal of micropollutants was evaluated for several doses of PAC and batch experiments were performed to measure adsorption kinetics and nitrification rates. The influence of PAC on the nitrifying microbial community was examined by high-throughput amplicon sequencing. Long-term operation of the pilot reactors showed that nitrification could be maintained while supplying PAC at increasing doses, as confirmed by high nitrification rates and significant abundance of nitrifying bacteria. The adsorption of organic micropollutants could be controlled by the PAC dose, and increased dosing resulted in corresponding improvements in removal efficiency. Biomass, suspended or attached to carriers, did not interfere with the adsorption of organic micropollutants. Freundlich isotherms obtained from the batch experiments were used to predict removal of organic micropollutants in the pilot reactors, suggesting that batch adsorption experiments can be used to predict micropollutant removal on a full scale. Collectively, the results show that nitrification and adsorption of organic micropollutants can be performed simultaneously in an MBBR.
13.	Cimbritz, Michael, et al. (author) Particle-visualisation - a tool for determination of rise velocities 2004 In: Water Science and Technology. - 0273-1223. ; 50:12, s. 229-236 Journal article (peer-reviewed)abstract Particles from post denitrifying Kaldnes Moving Bed(TM) Process were studied using an optical borescope, a visualisation technique that provides opportunities for both qualitative and quantitative studies of the separation mechanism in Dissolved Air Flotation (DAF). Rise rates for particle/bubble aggregates were estimated showing great variability. Two groups of aggregates were distinguished; relatively small floes (<100 mum) with single bubble's attached rising comparatively slowly and large flocs (>100 mum) with several bubbles attached rising very fast. The high rise rates for large aggregates are discussed, possibly explained and suggested as the reason for the effective separation of large particles noticed in previous studies. Removal efficiency of different size categories of particles in DAF were investigated on the basis of particle size analysis indicating increased separation efficiency with increasing particle size.
14.	Cimbritz, Michael (author) Renare vatten 2023 In: KEMISK TIDSKRIFT. - 0039-6605. ; :2, s. 20-23 Journal article (pop. science, debate, etc.)
15.	Cimbritz, Michael, et al. (author) Reningstekniker för läkemedel och mikroföroreningar i avloppsvatten : Redovisning av åtta projekt som fått medel från Havs- och vattenmiljöanslaget 2014-2017 2018 Reports (other academic/artistic)abstract På uppdrag av regeringen har Havs- och vattenmyndigheten under åren 20142017 finansierat olika projekt för utveckling av reningsteknik i syfte att minska utsläpp av läkemedelsrester och andra svårnedbrytbara föroreningar från kommunala avloppsreningsverk. Sex olika forsknings- och utvecklingsprojekt har genomförts under ledning av forskare kopplade till RISE, Tekniska verken i Linköping, Högskolan Kristianstad, IVL Svenska Miljöinstitutet, Umeå universitet, Lunds universitet och Kungliga tekniska högskolan. I de olika projekten har även kommunala va-organisationer och företag haft centrala roller. Inom ramen för dessa projekt har omfattande försök genomförts, från laboratorieskala till långtidsförsök i fullskala vid avloppsreningsverk i olika delar av landet. Utöver dessa projekt har ytterligare två projekt genomförts inom ramen för utlysningen. Vid Högskolan Kristianstad utfördes en interkalibreringsstudie i syfte att uppnå ökad analyskvalitet och öka medvetenheten om problem förknippade med spåranalys av läkemedelsrester. Vid Lunds universitet genomfördes en omvärldsbevakning med en studieresa till Tyskland och Schweiz för att överföra kunskap och driftserfarenheter från avloppsreningsverk som kompletterats med avancerad rening. Resultaten från projekten visar att det finns teknik som idag kan tillämpas på svenska kommunala avloppsreningsverk i syfte att avlägsna olika typer av mikroföroreningar, däribland läkemedelsrester. De tekniska lösningar som utvärderats baseras i huvudsak på ozonering eller filtrering genom aktivt kol samt olika kombinationslösningar. Lösningarna har i de flesta fall testats och utvärderats i nära samarbete med personal på avloppsreningsverk, vilket är en förutsättning för att kunna utvärdera teknikerna på ett trovärdigt sätt. Detta skapar goda förutsättningar för fungerande lösningar i stor skala. I ett av projekten har även källsorterande system studerats. Arbetet har i flera fall banat väg för nya forsknings- och utvecklingsprojekt där de parter som arbetat inom nuvarande utlysning kan bidra till och leda utvecklingen av framtidens avloppsvattenrening. Det gäller exempelvis ekotoxikologiska effekter av ozonering, utveckling och förståelse av tillämpningar baserade på aktivt kol och utveckling av analysteknik. Genom regeringsuppdraget och arbetet i de olika projekten har det skapats en mycket stark plattform att bygga vidare på för införande av avancerad rening vid svenska avloppsreningsverk. I denna rapport beskrivs i korthet och i populärvetenskaplig form bakgrunden till arbetet och resultat från de olika projekten. Kostnader för olika reningstekniker har tagits fram och sammanfattas i rapporten som också erbjuder vägar vidare för den intresserade läsaren.
16.	Cimbritz, Michael, et al. (author) Separation characteristics in dissolved air flotation - pilot and full-scale demonstration 2003 In: Water Science and Technology. - 0273-1223. ; 48:3, s. 89-96 Journal article (peer-reviewed)abstract This study presents practical implications for particle separation in Dissolved Air Flotation (DAF). The objectives were to localise where particles are separated from the water phase and to determine what particles, in terms of size, are removed by the DAF-process. Both pilot- and full-scale plants were investigated. Particle sizes were analysed with a light-blocking particle counter and an optical borescope was used for visualisation of particle-bubble aggregates. It was found that particles are preferably separated upstream in the process, i.e. close to the contact zone. Furthermore, separation efficiency for particles increased with increasing particle size.
17.	Edefell, Ellen, et al. (author) MBBRs as post-treatment to ozonation : Degradation of transformation products and ozone-resistant micropollutants 2021 In: Science of the Total Environment. - : Elsevier BV. - 0048-9697. ; 754 Journal article (peer-reviewed)abstract The degradation potential of micropollutants and transformation products in biological post-treatment after ozonation is partly unknown. A pilot plant with ozonation and subsequent biological treatment in a moving bed biofilm reactor (MBBR) was thus operated over 16 months to investigate the removal of micropollutants and the formation and removal of N-oxide transformation products. Lab-scale kinetic experiments were performed in parallel. At a moderate ozone dose of 0.5 g O3 g−1 DOC, further degradation of gabapentin and 3 iodinated contrast media (iomeprol, iopamidol, and iohexol) could be induced by the biofilm at prolonged exposure times. To facilitate comparison of feeding regimens in biofilm systems a new surface-related degradation rate constant was introduced. The availability of substrates in the pilot MBBR influenced the micropollutant degradation kinetics with increasing and decreasing degradation rates. N-oxides from erythromycin, clarithromycin, tramadol, and venlafaxine were formed during ozonation and could not be degraded by the biofilm.
18.	Edefell, Ellen, et al. (author) Promoting the degradation of organic micropollutants in tertiary moving bed biofilm reactors by controlling growth and redox conditions 2021 In: Journal of Hazardous Materials. - : Elsevier BV. - 0304-3894. ; 414 Journal article (peer-reviewed)abstract A novel process configuration was designed to increase biofilm growth in tertiary moving bed biofilm reactors (MBBRs) by providing additional substrate from primary treated wastewater in a sidestream reactor under different redox conditions in order to improve micropollutant removal in MBBRs with low substrate availability. This novel recirculating MBBR was operated on pilot scale for 13 months, and a systematic increase was seen in the biomass concentration and the micropollutant degradation rates, compared to a tertiary MBBR without additional substrate. The degradation rates per unit carrier surface area increased in the order of ten times, and for certain micropollutants, such as atenolol, metoprolol, trimethoprim and roxithromycin, the degradation rates increased 20–60 times. Aerobic conditions were critical for maintaining high micropollutant degradation rates. With innovative MBBR configurations it may be possible to improve the biological degradation of organic micropollutants in wastewater. It is suggested that degradation rates be normalized to the carrier surface area, in favor of the biomass concentration, as this reflects the diffusion limitations of oxygen, and will facilitate the comparison of different biofilm systems.
19.	Falås, Per, et al. (author) Microbial bromate reduction following ozonation of bromide-rich wastewater in coastal areas 2022 In: Science of the Total Environment. - : Elsevier BV. - 0048-9697. ; 841 Journal article (peer-reviewed)abstract Ozonation of wastewater can reduce the release of organic micropollutants, but may result in the formation of undesirable by-products, such as bromate from bromide. Bromide is one of the most abundant ions in seawater, the primary precursor of bromate during ozonation, and the end product in microbial bromate reduction. Investigations were carried out to compare the concentration of bromide in wastewater in coastal and non-coastal catchment areas, to monitor bromate formation during ozonation, and to assess the potential for subsequent bromate reduction with denitrifying carriers. Higher bromide concentrations were systematically observed in wastewater from coastal catchment areas (0.2–2 mg Br−/L) than in wastewater from non-coastal areas (0.06–0.2 mg Br−/L), resulting in elevated formation of bromate during ozonation. Subsequent investigations of bromate reduction in contact with denitrifying carriers from two full-scale moving bed biofilm reactors (MBBRs) showed that 80 % of the bromate formed during ozonation could be reduced to bromide in 60 min with first-order rate constants of 0.3–0.8 L/(gbiomass·h). Flow-through experiments with denitrifying carriers also showed that combined reduction of bromate and nitrate could be achieved below a concentration of 2 mg NOx−-N/L. These findings indicate that bromide-rich wastewater is more likely to be of concern when using ozonation in coastal than in non-coastal areas, and that bromate and nitrate reduction can be combined in a single biofilm reactor.
20.	Gidstedt, Simon, et al. (author) A comparison of adsorption of organic micropollutants onto activated carbon following chemically enhanced primary treatment with microsieving, direct membrane filtration and tertiary treatment of municipal wastewater 2022 In: Science of the Total Environment. - : Elsevier BV. - 0048-9697 .- 1879-1026. ; 811:152225 Journal article (peer-reviewed)abstract The adsorption of organic micropollutants onto powdered activated carbon (PAC) was investigated in laboratory scale based on samples from four wastewater process streams (matrices); three from a pilot-scale plant with different degrees of physicochemical treatment of municipal wastewater and one from a full-scale activated sludge plant with post-precipitation. The pilot-scale treatment consisted of chemically enhanced primary treatment with microsieving followed by direct membrane filtration as microfiltration or ultrafiltration. The results showed highest adsorption of micropollutants in the tertiary (biologically and chemically) treated wastewater and lowest adsorption in the microsieve filtrate. Adsorption of micropollutants in the direct membrane microfiltration (200 nm) permeate was generally similar to that in the direct membrane ultrafiltration (3 nm) permeate. The higher adsorption of micropollutants in the tertiary treated wastewater could be related to a lower concentration of dissolved organic carbon (DOC) and lower affinity of DOC for PAC at low dosage (<15 mg PAC/L) in this matrix. At a PAC dose of 10 mg/L, sulfamethoxazole was removed by 33% in the tertiary treated wastewater and 7% in the direct membrane microfiltration permeate. In addition to the PAC experiments, a pilot scale sand filter and a proceeding GAC filter was operated on tertiary treated wastewater from the full-scale treatment plant. Similar removal trends in the PAC and GAC experiments were observed when studying a weighted average micropollutant removal in the GAC filter and a similar dose of activated carbon for both PAC and GAC. Positively charged micropollutants were removed to a higher extent than negatively charged ones by both PAC and GAC.
21.	Gidstedt, Simon, et al. (author) Chemically enhanced primary treatment, microsieving, direct membrane filtration and GAC filtration of municipal wastewater : a pilot-scale study 2022 In: Environmental Technology (United Kingdom). - : Taylor and Francis Ltd.. - 0959-3330 .- 1479-487X. ; , s. 12 Journal article (peer-reviewed)abstract Chemically enhanced primary treatment (CEPT) followed by microsieving and direct membrane filtration (DMF) as ultrafiltration, was evaluated on pilot scale at a municipal wastewater treatment plant. In addition, a granular activated carbon (GAC) filter downstream of DMF was evaluated for the removal of organic micropollutants. Up to 80% of the total organic carbon (TOC) and 96% of the total phosphorus were removed by CEPT with microsieving. The additional contribution of subsequent DMF was minor, and only five days of downstream GAC filtration was possible due to fouling of the membrane. Of the 21 organic micropollutants analysed, all were removed (≥ 98%) by the GAC filter until 440 bed volumes, while CEPT with microsieving and DMF removed only a few compounds. Measurements of the oxygen uptake rate indicated that the required aeration for supplementary biological treatment downstream of CEPT with microsieving, both with and without subsequent DMF, was 20−25% of that in the influent wastewater. This study demonstrated the potential of using compact physicochemical processes to treat municipal wastewater, including the removal of organic micropollutants.
22.	Hägg, Kristofer, et al. (author) Combining chemical flocculation and disc filtration with managed aquifer recharge 2018 In: Water. - : MDPI AG. - 2073-4441. ; 10:12 Journal article (peer-reviewed)abstract Natural organic matter (NOM) is a growing concern for artificial recharge plants. In the future, it is predicted that warmer climates and more precipitation will cause higher NOM production in lakes and more NOM transport to lakes. This, coupled with increasing drinking water demand due to the population increase, is pushing operators of water treatment plants (WTPs) to find new ways to treat water. In this study, the possibility of reducing the organic load in infiltration basins through a compact pre-treatment technique utilizing microsieves, or disc filters, instead of bulky sedimentation basins and rapid sand filters after chemical flocculation to separate flocs, was investigated. The experiments were conducted using a laboratory-scale flocculator, bench-scale disc filters (10 μm and 40 μm), FeCl3, an anionic synthetic polymer, and water from Lake Vomb, a lake in southern Sweden. Raw water was flocculated using FeCl3 and the polymer, and the filtrated samples were analyzed by measuring UV-VIS absorbance, total organic carbon (TOC), and permeate volume. The results when using 10-μm and 40-μm disc filters demonstrate that it is possible to reduce NOM (by approximately 50%) and separate flocs from raw water. The experiments also highlight the importance of sufficient flocculation times and the use of appropriate polymer dosage to achieve higher permeate volumes and avoid residual polymers in the effluent. In this paper, the possibility of using this technique as a standalone treatment step or as a pre-treatment step in order to manage the aquifer recharge is demonstrated.
23.	Juárez, Rubén, et al. (author) Integrating dissolved and particulate matter into a prediction tool for ozonation of organic micropollutants in wastewater 2021 In: Science of the Total Environment. - : Elsevier BV. - 0048-9697. ; 795 Journal article (peer-reviewed)abstract Ozonation is an established technique used to reduce the discharge of organic micropollutants into the aquatic environment, but the possibility of predicting the ozone demand for different wastewater matrices is still limited, especially in the presence of suspended solids (SS). A new tool for the prediction of the removal of organic micropollutants with ozone, based on dissolved and particulate matter in activated sludge effluents, was therefore developed. The removal of 25 organic micropollutants was determined on laboratory scale in the presence and absence of suspended solids. The linear trajectories of the dose–response curves enabled the determination of a new set of removal constants, based on dissolved chemical oxygen demand (COD) and SS. The presence of SS had a more negative effect on the removal of slow-reacting micropollutants (removal constant <3.5 mg CODCr,diss·mg O3−1) with ozone than on the fast-reacting micropollutants (removal constant >3.5 mg CODCr,diss·mg O3−1). However, the decreased removal of the organic micropollutants was generally small, <10%, at typical SS concentrations, <25 mg SS·L−1. Integration of the new removal constants based on COD and SS enabled the removal in an ozone pilot plant to be modelled with an average deviation of <10% for several organic micropollutants. The use of the frequently measured parameters, COD and SS, as input parameters could facilitate the future use of the tool to predict the removal of micropollutants during ozonation.
24.	Mattsson, Ann, 1964, et al. (author) Hydraulic loadings of large Swedish WWTPs - key performance indicators and consequences 2015 In: 12th IWA Specialised Conference on Design, Operation and Economics of large Wastewater Treatment Plants, Sept 6-9, Prague. ; , s. 269-271 Conference paper (peer-reviewed)
25.	Nyström, Fredrik, 1983- (author) Coagulation process characteristics and pollutant removal from urban runoff 2019 Licentiate thesis (other academic/artistic)abstract Many different stormwater control measures (SCMs) can be implemented in order to mitigate issues with polluted stormwater flows into receiving water bodies. The treatment function of SCMs is commonly based on the removal of particles by sedimentation, thereby also removing pollutants associated with particles. In recent years, more attention has been given to characterizing and understanding of different particle size fractions and their association with pollutants commonly found in stormwater. It has become increasingly clear that the smaller sized particles are very important pollutant transporters and should be considered when designing and implementing SCMs. However, the settling velocities for smaller sized particles are very low and may not be effectively removed in existing SCMs. One treatment process with a proven ability to enhance sedimentation is coagulation/flocculation, widespread in water and wastewater treatment, but with very few accounts of it being used in a stormwater context. This thesis aims to investigate the treatability of stormwater with a coagulation/flocculation process. This includes the determination of operating conditions, the dominating coagulation mechanism and the reduction efficiency of stormwater related pollutants. The objectives of the thesis were achieved in laboratory tests treating stormwater in a jar-testing procedure.An initial screening of primary coagulants and flocculant aids was conducted using an urban snowmelt mixture. Five of the chemicals were then selected for an extended testing regime which was setup up to determine the operating conditions where maximal turbidity reduction was attained by measuring the pH, conductivity, alkalinity and zeta-potential over the tested doses for each coagulant. Criteria used for chemical selection included high turbidity reduction, low dose requirement and low pH/alkalinity impacts.Charge reversal was observed at positive zeta-potential indicating that the dominating coagulation mechanism was charge neutralization. The content of turbidity/total suspended solids, total organic carbon, total metals and hydrocarbons by >90%. Dissolved copper was reduced by 40% on average, and the reduction rates for dissolved zinc were varying with up to a 300% increase, presumably due to changes in pH, leading to a higher mobility. Changes in the particle size distribution after coagulation/flocculation as compared to sedimentation indicated an effect on the size fraction corresponding to smaller particles.The performance of the coagulation/flocculation process was also tested on road runoff collected from a central road in Luleå with a high traffic intensity. Two coagulants were tested, iron chloride and pre-hydrolyzed aluminum chloride. Reduction rates for the total metal fraction were >90% on average for both coagulants, but for the dissolved metal fractions differences could be observed between the coagulants with the iron chloride resulting in higher reductions for dissolved chrome (57% compared to 34%) and copper (47% compared to 30%). Both products increased the dissolved fractions of nickel and zinc due to lower final pH.
26.	Ossiansson, Elin, 1983, et al. (author) Primary filtration of municipal wastewater with sludge fermentation – Impacts on biological nutrient removal 2023 In: Science of the Total Environment. - 0048-9697 .- 1879-1026. ; 902 Journal article (peer-reviewed)abstract Primary filtration is a compact pre-treatment process for municipal wastewater, which can lead to high removal of total suspended solids (TSS) if polymer is added prior to filtration. Extensive carbon removal with rotating belt filter (RBF) can be combined with filter primary sludge fermentation at ambient temperature, in order to produce volatile fatty acids (VFAs) as carbon source for biological nutrient removal (BNR). This process was implemented at large pilot-scale and operated for more than a year. The results showed that the RBF efficiently removed particles >10 μm, and that the TSS removal had a strong linear correlation to the influent TSS concentration. Fermentation of the sludge at ambient temperature and five days retention time and addition of the fermentate to the wastewater could nearly double the VFA concentration in the wastewater by adding 31 ± 9 mg VFA-COD/L. Meanwhile, an increase of 2 mg/L of ammonium nitrogen, and 0.7 mg /L of phosphate phosphorus would be added to the wastewater with the fermentate. Adding the fermented sludge to the wastewater stream and removing the particles with RBF makes it possible to utilize nearly all the produced VFAs for BNR, and the feasibility of this configuration was shown at pilot-scale. According to simulations of subsequent BNR, the pre-treatment would lead to lower effluent total nitrogen concentrations. Alternatively, the required BNR volume could be reduced by 11–18 %. The estimated total biogas production was similar for pre-treatment with primary settler and RBF with fermentation. RBF without fermentation gave the most favourable energy balance, but did not reach the same low effluent value for total nitrogen as RBF with fermentation.
27.	Ossiansson, Elin, 1983, et al. (author) Seasonal variations in acidogenic fermentation of filter primary sludge 2023 In: Water Research. - 0043-1354 .- 1879-2448. ; 242 Journal article (peer-reviewed)abstract Primary treatment of municipal wastewater by rotating belt filtration followed by hydrolysis and acidogenic fermentation of the filter primary sludge (FPS) at ambient temperature was studied at pilot-scale during one year. The seasonal variations of volatile fatty acids (VFAs), nutrient release and soluble COD production as well as microbial community assembly were assessed, leading to novel findings for fermentation at ambient temperature. The reproducibility of VFA production performance was first established by operating the two fermentation reactors under the same conditions, showing similar results regarding VFA production and microbial community structure. One year of operation at 5 d retention time (RT) and 16–29 °C resulted in an average VFA yield of 180±35 mg COD/g VSin and soluble COD yield of 242±40 mg COD/g VSin. The VFA formation was temperature-dependent, with ϴ=1.033±0.005 (r=r20·Θ(T−20∘C)). The seasonal variations of the acetic and propionic acid productions were pronounced, whereas the productions of VFAs with longer chains were more stable regardless of temperature. The community structure of the reactor microbiomes was also clearly affected by season and temperature and linked with the production spectrum of VFAs. The ammonium and phosphate releases were stable during the year, leading to a decrease in ratios of soluble COD to NH4+-N and PO43−-P during winter. The soluble COD yield was 11% and 27% higher at 5 d RT compared to 3 and 2 d RT respectively, but the corresponding volumetric productivities were lower. The dissimilarities between microbiomes in influent FPS and fermenters were significant even at a short RT of 2 d, and increased with longer RT of 3 and 5 d, primarily caused by selection of bacteria within Bacteroidota in the fermentation reactors.
28.	Persson, E., et al. (author) Disc filtration for separation of flocs from a moving bed bio-film reactor 2006 In: Water Science and Technology. - : IWA Publishing. - 0273-1223 .- 1996-9732. ; 53:12, s. 139-147 Journal article (peer-reviewed)abstract A Discfilter with 10 and 18 mu m filter openings, respectively, was placed in parallel to a flotation plant for separation of biological flocs from a post-denitrifying Kaldnes Moving Bed (TM) Process, the last treatment step at the municipal wastewater treatment plant at Sjolunda, Malmo, Sweden. The effluent concentrations from the 10 and 18 mu m filter were 2-5 and 2-8 mg SS L-1, respectively, which is comparable to, or better than, the flotation plant. Comparison with experiences from activated sludge plants shows that the Discfilter works especially well after the Kaldnes process. Particle size distribution (PSD) studies show that particles larger than the filter openings of 10 and 18 mu m are separated with approximately 90% efficiency, whereas most of the smaller particles pass the filter. This fact indicates that the major particle separation mechanism is physical blocking. These findings point to the possibility of improving the prediction of the separation efficiency by combining measurements of turbidity and suspended solids with particle size analysis.
29.	Takman, Maria, et al. (author) Assessing the potential of a membrane bioreactor and granular activated carbon process for wastewater reuse – A full-scale WWTP operated over one year in Scania, Sweden 2023 In: Science of the Total Environment. - : Elsevier. - 0048-9697 .- 1879-1026. ; 895 Journal article (peer-reviewed)abstract A full-scale membrane bioreactor (MBR) with ultrafiltration, followed by granular activated carbon (GAC), was examined to determine the potential of reusing treated water as a source of drinking water or for irrigation. The major part of the bacteria removal took place in the MBR, whereas the GAC removed substantial amounts of organic micropollutants. Annual variations in inflow and infiltration resulted in a concentrated influent during summer and a diluted influent in the winter. The removal of E. coli was high throughout the process (average log removal 5.8), with effluent concentrations meeting the threshold for class B water standards for irrigation (EU 2020/741) but exceeding those for drinking water in Sweden. The total bacterial concentration increased over the GAC, indicating the growth and release of bacteria; however, E. coli concentrations declined. The effluent concentrations of metals met the Swedish criteria for drinking water. The removal of organic micropollutants decreased during the initial operation of the treatment plant, but after 1 year and 3 months, corresponding to 15,000 bed volumes, the removal increased. Maturation of the biofilm in the GAC filters might have resulted in biodegradation of certain organic micropollutants, in combination with bioregeneration. Although there is no legislation in Scandinavia with regard to many organic micropollutants in drinking water and water for irrigation, the effluent concentrations were generally in the same order of magnitude as to those in Swedish source waters that are used for drinking water production.
30.	Takman, Maria, et al. (author) Biological degradation of organic micropollutants in GAC filters–temporal development and spatial variations 2024 In: Journal of Hazardous Materials. - : Elsevier. - 0304-3894. ; 472 Journal article (peer-reviewed)abstract The capacity for organic micropollutant removal in granular activated carbon (GAC) filters for wastewater treatment changes over time. These changes are in general attributed to changes in adsorption, but may in some cases also be affected by biological degradation. Knowledge on the degradation of organic micropollutants, however, is scarce. In this work, the degradation of micropollutants in several full-scale GAC and sand filters was investigated through incubation experiments over a period of three years, using 14C-labeled organic micropollutants with different susceptibilities to biological degradation (ibuprofen, diclofenac, and carbamazepine), with parallel 16S rRNA gene sequencing. The results showed that the degradation of diclofenac and ibuprofen in GAC filters increased with increasing numbers of bed volumes when free oxygen was available in the filter, while variations over filter depth were limited. Despite relatively large differences in bacterial composition between filters, a degradation of diclofenac was consistently observed for the GAC filters that had been operated with high influent oxygen concentration (DO >8 mg/L). The results of this comprehensive experimental work provide an increased understanding of the interactions between microbial composition, filter material, and oxygen availability in the biological degradation of organic micropollutants in GAC filters.
31.	Takman, Maria, et al. (author) Storylines and Imaginaries of Wastewater Reuse and Desalination: The Rise of Local Discourses on the Swedish Islands of Öland and Gotland 2023 In: Water Alternatives. - 1965-0175. ; 16:1, s. 207-243 Journal article (peer-reviewed)abstract Increased pressure on existing freshwater resources has given rise to interest in new raw water sources. Wastewater reuse and desalination are two alternatives that are frequently compared and discussed in the literature. In this study, local discourses in the form of storylines and imaginaries were identified on the Swedish islands of Öland and Gotland. These local storylines and imaginaries were then compared to those found in the literature on wastewater reuse and desalination; in the process, overlaps and variations were identified. On Gotland, a controversy over desalination was observed where arguments were raised for and against 'natural' (nature-based and therefore 'good') solutions and 'unnatural' or engineered solutions (desalination). Such a controversy was not observed on Öland. The controversy on Gotland arose out of competing imaginaries of the future. Such discourses can affect the transitions of water systems. Understanding local discourses may thus be crucial to our understanding of the larger transitions underway in the water sector and may figure importantly in the acceptance of new water sources.
32.	Takman, Maria, et al. (author) Återanvändning av renat avloppsvatten : Potential efter rening med en membranbioreaktor följt av granulerat aktivt kol 2022 Reports (pop. science, debate, etc.)abstract The treated wastewater from a full scale MBR and GAC reached drinking water quality regarding metals, but not bacteria. The water quality is however assessed as sufficient for irrigation or as a source water for drinking water production, based on the parameters analyzed in the project. The concentrations of organic micro pollutants were similar to the ones measured in Swedish drinking water sources, and hence similar to concentrations that we accept in the water we use for drinking water production.
33.	Wilen, Britt-Marie, 1966, et al. (author) Large scale tertiary filtration - results and experiences from the discfilter plant at the Rya WWTP in Sweden 2015 In: Oroceedings of 12th IWA Specialised Conference on Design, Operation and Economics of Large WAstewater Treatment PLants. ; , s. 73-79 Conference paper (peer-reviewed)

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