Your search keyword '"Wastewater biological treatment"' showing total 19 results

1. Impact of inoculum on domestic wastewater treatment in high-rate ponds in pilot-scale: Assessment of organic matter and nutrients removal, biomass growth, and content

Author

Sátiro, Josivaldo, dos Santos Neto, Antônio, Tavares, Jucélia, Marinho, Idayana, Magnus, Bruna, Kato, Mario, Albuquerque, António, and Florencio, Lourdinha

Published

2025

2. Life cycle assessment of a wastewater hybrid system for rural communities, Marcelino Maridueña case of study.

Author

Everhart, Sara, Amaya, J.L., Hidalgo-Crespo, J., Jervis, F.X., Mendoza, M.L., and Moreira, C.

Published

2023

3. Analysing the influence of operating conditions on the performance of algal–bacterial granular sludge processes for wastewater treatment: A review.

Author

Sanchez‐Sanchez, Celina, Baquerizo, Guillermo, and Moreno‐Rodríguez, Ernestina

Subjects

WASTEWATER treatment, SEWAGE purification, SEWAGE sludge, INDUSTRIAL wastes, SEWAGE

Abstract

This article discussed the effect of the main operating parameter involved in the operation of algal–bacterial granular sludge (ABGS) systems as promising biological processes for wastewater treatment. The focus was on the operational ranges reported in the literature capable of achieving better granule properties, good stability and high removal capacities. This review identified that hydraulic retention time (HRT), light intensity (LI) and light/dark periods were the most influential operating factors on the formation, stability, settleability and organic pollutant removal efficiency of ABGS. The discussion argued that ABGS systems enhance industrial and domestic wastewater treatment due to additional advantages that provide the symbiotic interactions to process performance, maintaining lesser operating costs concerning aerobic granular sludges (AGS) and microalgae consortia. This review will improve the understanding of the operation of ABGS systems and thus further expand possible operating combinations that help to enhance microbial interactions, microalgae growth and external aeration self‐sufficiency in further research with a focus on its scaling up. [ABSTRACT FROM AUTHOR]

Published

2023

4. OPORABA OTPADA U UKLANJANJU NUTRIJENATA IZ OTPADNIH VODA.

Author

Grgas, Dijana, Karličić, Nikola, Štefanac, Tea, Dragičević, Tibela Landeka, Obradović, Marko, and Todorović, Dušan

Subjects

WASTE management, BIOLOGICAL nutrient removal, SEWAGE, WOOD chips, EUTROPHICATION

Abstract

Copyright of Proceedings of the International Congress on Process Engineering - Processing is the property of Union of Mechanical & Electrotechnical Engineers & Technicians of Serbia (SMEITS) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. Anaerobic biofilm enriched with an ammonia tolerant methanogenic consortium to improve wastewater treatment in the fishing industry.

Author

Alarcón-Vivero, Manuel, Moena, Nathaly Ruiz-Tagle, Gonzalez, Fidelina, Jopia-Contreras, Paz, Aspé, Estrella, Briones, Homero Urrutia, and Fernandez, Katherine Sossa

Subjects

FISHERIES, WASTEWATER treatment, FISH industry, AMMONIA, INDUSTRIAL wastes, UPFLOW anaerobic sludge blanket reactors

Abstract

The digestion efficiency of liquid industrial wastes increases when using bioreactors colonized by microbial biofilms. High concentrations of proteins derived from the fish processing industry lead to the production of ammonia, which inhibits methane production. Two bioreactors were constructed to compare methanogenic activity: one enriched with mMPA (methylaminotrofic methane production archaea) consortia (control bioreactor), and the second with NH3 tolerant consortia (treatment bioreactor). Ammonia tolerant activity was assessed by applying an ammonia shock (755 mg NH3/L). Methane production, consumption of total organic carbon (TOC) and the taxonomic composition of bacteria and archaea was evaluated using 16S rDNA in the acclimatization, ammonia shock, and recovery phases.The ammonia shock significantly affected both methane production and the consumption of TOC in the control reactor (p < 0.05) and taxonomical composition of the microbial consortia (OTU). These values remained constant in the treatment reactor. The analysis of biofilm composition showed a predominance of Methanosarcinaceae (Methanomethylovorans sp., and probably two different species of Methanosarcina sp.) in bioreactors. These results demonstrate that using acclimated biofilms enriched with ammonia tolerant methanogens control the inhibitory effect of ammonia on methanogenesis. [ABSTRACT FROM AUTHOR]

Published

2022

6. New approach for regulation of the internal recirculation flow rate by fuzzy logic in biological wastewater treatments.

Author

Santín, I., Vilanova, R., Pedret, C., and Barbu, M.

Subjects

WASTEWATER treatment, FUZZY logic, EFFLUENT quality, SEWAGE disposal plants, OPERATING costs

Abstract

The internal recirculation plays an important role on the different biological processes of wastewater treatment plants because it has a great influence on the concentration of pollutants, especially nutrients. Usually, the internal recirculation flow rate is kept fixed or manipulated by control techniques to maintain a fixed nitrate set-point in the last anoxic tank. This work proposes a new control strategy to manipulate the internal recirculation flow rate by applying a fuzzy controller. The proposed controller takes into account the effects of the internal recirculation flow rate on the inlet of the biological treatment and on the denitrification and nitrification processes with the aim of reducing violations of legally established limits of nitrogen and ammonia and also reducing operational costs. The proposed fuzzy controller is tested by simulation with the internationally known benchmark simulation model no. 2. The objective is to apply the proposed fuzzy controller in any control strategy, only replacing the manipulation of the internal recirculation flow rate, to improve the plant operation.Therefore, it has been implemented in five operation strategies from the literature, replacing their original internal recirculation flow rate control, and simulation results are compared with those of the original strategies. Results show improvements with the application of the proposed fuzzy controller of between 2.25 and 57.94% in reduction of total nitrogen limit violations, between 55.22 and 79.69% in reduction of ammonia limit violations and between 0.84 and 38.06% in cost reduction of pumping energy. • New regulation of the internal recirculation flow rate in wastewater treatments. • Fuzzy logic is based on analysis of the internal recirculation effects. • The proposed fuzzy controller can be applied in any operation strategy. • A comparison with usual regulations have been carried out. • Improvements of effluent quality and operational costs are achieved. [ABSTRACT FROM AUTHOR]

Published

2022

7. 好氧颗粒污泥污水处理技术研究现状与发展.

Author

李杰, 王少坡, 李亚静, 孟凡盛, 邱春生, 于静洁, 孙力平, and 赵明

Subjects

QUORUM sensing, SHEARING force, APPROPRIATE technology, ACTIVATED sludge process, WASTEWATER treatment, BIOMASS, SLUDGE management

Abstract

Copyright of Environmental Science & Technology (10036504) is the property of Editorial Board of Environmental Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

8. Combining photocatalytic process and biological treatment for Reactive Green 12 degradation: optimization, mineralization, and phytotoxicity with seed germination.

Author

Zeghioud, Hichem, Khellaf, Nabila, Amrane, Abdeltif, Djelal, Hayat, Bouhelassa, Mohamed, Assadi, Aymen Amine, and Rtimi, Sami

Subjects

GERMINATION, PHYTOTOXICITY, CHEMICAL oxygen demand, BATCH reactors, MINERALIZATION

Abstract

In this study, we show that the combination of a photocatalytic process (as a pretreatment step) combined with the conventional biological treatment of wastewaters can improve the process and achieve satisfactory efficiency. In this context, Reactive Green 12 (RG-12) solutions were photocatalytically pretreated using TiO2-impregnated polyester as supported catalyst under UV light in batch reactor. Photocatalysis as pretreatment (during 4 and 8 h of irradiation) was combined with 7 days of aerobic biological treatment using activated sludge. As first assays, respiratory tests revealed that the removal of RG-12 was improved by 5.4% and 11.7% for the solutions that were irradiated for 4 and 8 h in the presence of TiO2, respectively. However, 34.5% and 19% of dye solution was discolored after 7 days of biological treatment for the pretreated solutions during 4 and 8 h of UV light exposure, respectively. The discoloration efficiency obtained by the combined processes achieved 59.6% and 74.9% for the samples under photocatalysis during 4 and 8 h, respectively. A significant decrease in chemical oxygen demand (COD) of about 74.9% was achieved after photocatalysis/biodegradation processes. In addition, a decrease in the phytotoxicity was obtained as followed by the germination index (GI) values of cress seeds that increased from 46.2 to 88.7% after 8 h of photocatalysis and then to 92.8% after further 7 days of biological treatment. [ABSTRACT FROM AUTHOR]

Published

2021

9. Regulation of extracellular polymers based on quorum sensing in wastewater biological treatment from mechanisms to applications: A critical review.

Author

Lv, Longyi, Wei, Ziyin, Li, Weiguang, Chen, Jiarui, Tian, Yu, Gao, Wenfang, Wang, Pengfei, Sun, Li, Ren, Zhijun, Zhang, Guangming, Liu, Xiaoyang, and Ngo, Huu Hao

Subjects

*QUORUM sensing, *WASTEWATER treatment, *CHARGE exchange, *COLONIZATION (Ecology), *ENERGY metabolism

Abstract

• Mechanisms of quorum sensing (QS) regulating EPS synthesis are elucidated. • Effects of QS on EPS synthesis in mixed microbial systems are reviewed. • Applications of QS-regulated EPS in wastewater microbial systems are discussed. • Research and development directions of QS regulation EPS are summarized. Extracellular polymeric substances (EPS) regulated by quorum sensing (QS) could directly mediate adhesion between microorganisms and form tight microbial aggregates. Besides, EPS have redox properties, which can facilitate electron transfer for promoting electroactive bacteria. Currently, the applications research on improving wastewater biological treatment performance based on QS regulated EPS have been widely reported, but reviews on the level of QS regulated EPS to enhance EPS function in microbial systems are still lacking. This work proposes the potential mechanisms of EPS synthesis by QS regulation from the viewpoint of material metabolism and energy metabolism, and summarizes the effects of QS on EPS synthesis. By synthesizing the role of QS in EPS regulation, we further point out the applications of QS-regulated EPS in wastewater biological treatment, which involve a series of aspects such as strengthening microbial colonization, mitigating membrane biofouling, improving the shock resistance of microbial metabolic systems, and strengthening the electron transfer capacity of microbial metabolic systems. According to this comprehensive review, future research on QS-regulated EPS should focus on the exploration of the micro-mechanisms, and economic regulation strategies for QS-regulated EPS should be developed, while the stability of QS-regulated EPS in long-term production experimental research should be further demonstrated. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

10. New approach for regulation of the internal recirculation flow rate by fuzzy logic in biological wastewater treatments

Author

Santín López, Ignacio, Vilanova i Arbós, Ramon, Pedret Ferré, Carles, Barbu, Marian, Santín López, Ignacio, Vilanova i Arbós, Ramon, Pedret Ferré, Carles, and Barbu, Marian

Abstract

Altres ajuts: Acord transformatiu CRUE-CSIC, Marian Barbu acknowledge the support of the project " EXPERT ", Contract no. 14PFE/17.10.2018., The internal recirculation plays an important role on the different biological processes of wastewater treatment plants because it has a great influence on the concentration of pollutants, especially nutrients. Usually, the internal recirculation flow rate is kept fixed or manipulated by control techniques to maintain a fixed nitrate set-point in the last anoxic tank. This work proposes a new control strategy to manipulate the internal recirculation flow rate by applying a fuzzy controller. The proposed controller takes into account the effects of the internal recirculation flow rate on the inlet of the biological treatment and on the denitrification and nitrification processes with the aim of reducing violations of legally established limits of nitrogen and ammonia and also reducing operational costs. The proposed fuzzy controller is tested by simulation with the internationally known benchmark simulation model no. 2. The objective is to apply the proposed fuzzy controller in any control strategy, only replacing the manipulation of the internal recirculation flow rate, to improve the plant operation.Therefore, it has been implemented in five operation strategies from the literature, replacing their original internal recirculation flow rate control, and simulation results are compared with those of the original strategies. Results show improvements with the application of the proposed fuzzy controller of between 2.25 and 57.94% in reduction of total nitrogen limit violations, between 55.22 and 79.69% in reduction of ammonia limit violations and between 0.84 and 38.06% in cost reduction of pumping energy.

Published

2021

11. Combining photocatalytic process and biological treatment for Reactive Green 12 degradation: optimization, mineralization, and phytotoxicity with seed germination

Author

Nabila Khellaf, Hayat Djelal, Mohamed Bouhelassa, Hichem Zeghioud, Sami Rtimi, Abdeltif Amrane, Aymen Amine Assadi, Badji Mokhtar-Annaba University, Institut des Sciences Chimiques de Rennes (ISCR), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA), UniLaSalle Rennes - Ecole des Métiers de l'Environnement, UniLaSalle, Université de Constantine, Ecole Polytechnique Fédérale de Lausanne (EPFL), Institut Français-Algérie (French Embassy), Université Badji Mokhtar Annaba (UBMA), Université de Rennes (UR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), and Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Health, Toxicology and Mutagenesis, Batch reactor, Germination, 010501 environmental sciences, 01 natural sciences, Catalysis, Germination index, Environmental Chemistry, [CHIM]Chemical Sciences, Photocatalytic degradation, 0105 earth and related environmental sciences, Titanium, Wastewater biological treatment, Sewage, Chemistry, Chemical oxygen demand, Reactive green 12, General Medicine, Biodegradation, Pollution, 6. Clean water, Activated sludge, Seeds, Photocatalysis, Phytotoxicity, Water Pollutants, Chemical, Nuclear chemistry

Abstract

International audience; In this study, we show that the combination of a photocatalytic process (as a pretreatment step) combined with the conventional biological treatment of wastewaters can improve the process and achieve satisfactory efficiency. In this context, Reactive Green 12 (RG-12) solutions were photocatalytically pretreated using TiO(2)-impregnated polyester as supported catalyst under UV light in batch reactor. Photocatalysis as pretreatment (during 4 and 8 h of irradiation) was combined with 7 days of aerobic biological treatment using activated sludge. As first assays, respiratory tests revealed that the removal of RG-12 was improved by 5.4% and 11.7% for the solutions that were irradiated for 4 and 8 h in the presence of TiO(2), respectively. However, 34.5% and 19% of dye solution was discolored after 7 days of biological treatment for the pretreated solutions during 4 and 8 h of UV light exposure, respectively. The discoloration efficiency obtained by the combined processes achieved 59.6% and 74.9% for the samples under photocatalysis during 4 and 8 h, respectively. A significant decrease in chemical oxygen demand (COD) of about 74.9% was achieved after photocatalysis/biodegradation processes. In addition, a decrease in the phytotoxicity was obtained as followed by the germination index (GI) values of cress seeds that increased from 46.2 to 88.7% after 8 h of photocatalysis and then to 92.8% after further 7 days of biological treatment.

Published

2021

12. Adaptive regulation of activated sludge's core functional flora based on granular internal spatial microenvironment.

Author

Chen, Yingyun, Geng, Nanfei, Hu, Tenghui, Baeyens, Jan, Wang, Shaojie, and Su, Haijia

Subjects

*HETEROTROPHIC bacteria, *IN situ hybridization, *BOTANY, *ANAEROBIC bacteria, *MICROBIAL aggregation, *SCANNING electron microscopes

Abstract

A great deal of efforts has been put into studying the influence of the external macroenvironment for activated sludge to survive on microbial community succession, while granular internal spatial microenvironment should be given equal attention, because it is more directly involved in the information exchange and material transfer among microorganisms. This study systematically investigated the effects of granular microenvironment on spatial colonization and composition of sludge's core functional flora, and the corresponding difference of biological treatment performance. High content of extracellular-proteins (67.53 mg/gVSS) or extracellular-polysaccharide (65.02 mg/gVSS) stimulated the microbial flocculation and aggregation of 0.5–1.5 mm granules (GS) or 1.5–3.0 mm granules (GM), respectively, which was resulted from excellent cell hydrophobicity (59.26%) or viscosity (3.47 mPa s), therefore, constituted relatively dense porous frame. More hollow space existed in 3.0–5.0 mm granules (GL), which formed loose skeleton with 0.213 mL/g of total pore volume and 17.21 nm of average pore size. Combining scanning electron microscope images and fluorescent in-situ hybridization based microbiological analysis, aerobic nitrifiers were observed to wrap or surround anaerobic bacteria, or facultative/anaerobic bacteria were self-encapsulated, which created granule's unique microenvironment with alternating aerobic and anaerobic zones. GS has the most rich organic matter degrading bacteria and anaerobic heterotrophic denitrifiers, while GM and GL presented the greatest relative abundance of facultative and aerobic denitrifiers, respectively. The activity of dehydrogenase and nitrogen invertase of GM showed be 1.32–3.09 times higher than those of GS and GL, contributing to its higher carbon and nitrogen removal. These findings highlight the importance of granular microenvironment to adaptive regulation of activated sludge's core functional flora and corresponding pollutant removal performance. [Display omitted] • Granular internal spatial microenvironment characteristics was analyzed in detail. • Functional flora and granular microenvironment are subject to two-way regulation. • 0.5–1.5 mm granules enriched the most organic degradation bacteria. • 3.0–5.0 mm granules have lots of hollow spaces and abundant aerobic denitrifiers. • 1.5–3.0 mm granules showed the greatest key biological enzyme activity. [ABSTRACT FROM AUTHOR]

Published

2022

13. New approach for regulation of the internal recirculation flow rate by fuzzy logic in biological wastewater treatments

Author

Carles Pedret, Ignacio Santín, Ramon Vilanova, and Marian Barbu

Subjects

Internal recirculation flow rate, 0209 industrial biotechnology, Nitrogen, 02 engineering and technology, Wastewater, Fuzzy control, Fuzzy logic, Water Purification, 020901 industrial engineering & automation, Fuzzy Logic, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Instrumentation, Wastewater biological treatment, Control strategies, Applied Mathematics, 020208 electrical & electronic engineering, Fuzzy control system, Nitrification, Computer Science Applications, Volumetric flow rate, Cost reduction, Control and Systems Engineering, Benchmark simulation model no 2, Benchmark (computing), Environmental science

Abstract

Altres ajuts: acords transformatius de la UAB Marian Barbu acknowledge the support of the project " EXPERT ", Contract no. 14PFE/17.10.2018. The internal recirculation plays an important role on the different biological processes of wastewater treatment plants because it has a great influence on the concentration of pollutants, especially nutrients. Usually, the internal recirculation flow rate is kept fixed or manipulated by control techniques to maintain a fixed nitrate set-point in the last anoxic tank. This work proposes a new control strategy to manipulate the internal recirculation flow rate by applying a fuzzy controller. The proposed controller takes into account the effects of the internal recirculation flow rate on the inlet of the biological treatment and on the denitrification and nitrification processes with the aim of reducing violations of legally established limits of nitrogen and ammonia and also reducing operational costs. The proposed fuzzy controller is tested by simulation with the internationally known benchmark simulation model no. 2. The objective is to apply the proposed fuzzy controller in any control strategy, only replacing the manipulation of the internal recirculation flow rate, to improve the plant operation.Therefore, it has been implemented in five operation strategies from the literature, replacing their original internal recirculation flow rate control, and simulation results are compared with those of the original strategies. Results show improvements with the application of the proposed fuzzy controller of between 2.25 and 57.94% in reduction of total nitrogen limit violations, between 55.22 and 79.69% in reduction of ammonia limit violations and between 0.84 and 38.06% in cost reduction of pumping energy.

Published

2021

14. Upgrade of three municipal wastewater treatment lagoons using a high surface area media.

Author

Wang, John, Jin, Peng, Bishop, Paul, and Li, Fuzhi

Abstract

Lagoon-based municipal wastewater treatment plants (WWTPs) are facing difficulties meeting the needs of rapid population growth as well as the more stringent requirements of discharge permits. Three municipal WWTPs were modified using a high surface area media with upgraded fine-bubble aeration systems. Performance data collected showed very promising results in terms of five-day biochemical oxygen demand (BOD), ammonia (NH) and total suspended solids (TSS) removal. Two-year average ammonia effluents were 4.1 mg·L for Columbia WWTP, 4 mg·L for Larchmont WWTP and 2.1 mg·L for Laurelville WWTP, respectively. Two-year average BOD effluents were 6.8, 4.9 and 2.7 mg·L, and TSS effluents were 15.0, 9.6 and 7.5 mg·L. The systems also showed low fecal coliform (FC) levels in their effluents. [ABSTRACT FROM AUTHOR]

Published

2012

15. Assessment of Luffa cylindrica as Support in Biofilms Reactors for the Biological Treatment of Domestic Wastewater.

Author

Ruiz-Marín, Alejandro, Campos-Garcia, Silvia, Zavala-Loría, José, Solana, Fernando, and Canedo-López, Yunuen

Subjects

BIOLOGICAL nutrient removal, BIOCHEMICAL oxygen demand, EXPERIMENTAL design, BIOREACTORS, LUFFA aegyptiaca, BIOFILMS

Abstract

A simultaneous treatment of BOD, phosphorous and ammonia in artificial wastewater was carried out in biofilm reactors with Luffa cylíndrica as organic support and compared with PVC's support under variations of dissolved oxygen of 1.5 a 3.0 mg l-1 in the same reactor. During semicontinous treatment, the removal of BOD (92.5%) with Luffa cilíndrica was higher than PVC support (80%). Nitrification only existed at levels of oxygen of 3 mg l-1, showed in the effluent a final concentration of ammonium of 17 and 19 mg l-1 for Luffa cilíndrica and PVC support, respectively. In reactors with Luffa cilíndrica a higher percentage of P removal (40%) was reached, while no elimination in reactors with PVC was observed. The formation of anaerobic-aerobic zones inside the natural support probably allowed the increase in the efficiency of removal of phosphorous. Oxidation of organic matter, P removal and nitrification can be achieved with the variation of oxygen inside of the same biofilm reactor using L. cylindrical as support material. [ABSTRACT FROM AUTHOR]

Published

2009

16. Source Analysis and Hazard Screening of Xenobiotic Organic Compounds in Wastewater from Food-Processing Industries.

Author

Maya-Altamira, L., Eriksson, E., and Baun, A.

Subjects

INDUSTRIAL wastes, FOOD industry, XENOBIOTICS, CHEMICALS, ORGANIC compounds, BIOACCUMULATION, BIOCHEMISTRY

Abstract

In this study we present and apply a methodology for identifying environmentally hazardous compounds in food industry wastewaters (FIW). The methodology comprises a source analysis and a hazard screening of xenobiotic organic compounds based on environmental distribution, persistence, bioaccumulation, and toxicity in aqueous and solid phases. This approach was applied to four selected FIW representing fish, pork meat, and vegetable production. Included in this approach was an analytical–chemical screening of 137 xenobiotic organic compounds showing that 13 compounds and groups of compounds could be detected in the FIW composite samples. The combined source analysis revealed that 161 xenobiotic organic compounds could potentially be present in these four FIW. The main sources were raw materials and their processing, but also packaging and cleaning of the production facility contributed to the total number of compounds potentially present. Using the hazard screening procedure it was found that 29 and 102 compounds should be considered for further hazard assessment in the aqueous and solid phases, respectively. It is important to note that 12% of the 161 compounds could not be evaluated for environmental hazards due to lack of inherent data on degradability, toxicity, and bioaccumulation. Furthermore, for 91% of the compounds no information was found on anaerobic biodegradability. The presented procedure contributes with a systematic source analysis and a ranking of the xenobiotic organic compounds that could cause environmental concern. In this way the procedure can provide guidance to operators and decision makers on handling options for wastewater streams in food processing industries. [ABSTRACT FROM AUTHOR]

Published

2008

17. Aerobic granular sludge (AGS) scouring to mitigate membrane fouling: Performance, hydrodynamic mechanism and contribution quantification model.

Author

Zhang, Wenxiang, Liang, Wenzhong, Zhang, Zhien, and Hao, Tianwei

Subjects

*GRANULATION, *FOULING, *MEMBRANE potential

Abstract

• AGS-MBR greatly lowered fouling rate in comparison with that of the conventional MBR. • A new scouring model was developed to explain the AGS scouring mechanism. • The AGS scouring stress is proportional to the total amount of AGS on the membrane. • A contribution quantification model was built to evaluate fouling mitigation factors. • AGS scouring had a contribution rate of 39.97% for membrane fouling mitigation. Aerobic granular sludge (AGS) has been proven to have a low fouling potential in membrane bioreactor (MBR). Nevertheless, AGS scouring effect on mitigating membrane fouling remains poorly investigated. The main objective of this study is to examine AGS-MBR performance, to reveal the AGS scouring mechanism and quantify its contribution rate to membrane fouling mitigation, from the views of theory and experiment. Above all, AGS-MBR exhibited a low fouling rate ((transmembrane pressure (TMP) kept below 20 kPa) without membrane cleaning and a higher removal of organics and nutrients than conventional MBR during 80 days' sludge granulation process. Then, flocculent sludge (FS) with various AGS ratios was applied to simulate the sludge granulation phase. When AGS ratio increased from 0% to 100%, the permeate flux gradually elevated from 40.0 L m −2 h −1 to 92.9 L m −2 h −1, and fouling resistance decreased from 9.0 × 10−12 m −1 to 3.9 × 10−12 m −1 benefiting from the loose structure and high porosity of AGS fouling layer. Meanwhile, the scouring effect produced by AGS on the membrane fouling mitigation was investigated. Based on the momentum conservation, a new hydrodynamic model was developed to explain the scouring mechanism of AGS. The scouring stress, proportional to the total amount of AGS depositing on the membrane surface, effectively reinforced the collision between AGS and FS, and reduced their deposition on the membrane surface by friction with the membrane; thus it was further conducive to membrane fouling mitigation. Moreover, a novel contribution quantification model was proposed for analyzing the contribution rate of AGS scouring effect to mitigate membrane fouling. AGS scouring possessed a significant contribution rate (39.9%) for fouling mitigation, compared with AGS structure (50.3%) and hydraulic stress (9.7%). In final, this study provides an in-depth understanding to mitigate the MBR membrane fouling by the unique advantages of sludge granulation. Image, graphical abstract [ABSTRACT FROM AUTHOR]

Published

2021

18. Application of Pleurotus ostreatus to efficient removal of selected antidepressants and immunosuppressant.

Author

Kózka, Bartosz, Nałęcz-Jawecki, Grzegorz, Turło, Jadwiga, and Giebułtowicz, Joanna

Subjects

*PLEUROTUS ostreatus, *LACCASE, *TRICLOCARBAN, *FUNGAL enzymes, *ANTIDEPRESSANTS, *MYCOPHENOLIC acid, *MOIETIES (Chemistry)

Abstract

Disposed pharmaceuticals constitute a significant threat to the environment due to the high consumption of drugs and inefficient treatment of wastewater. In this paper, we first described the efficient removal of a series of antidepressants and immunosuppressant from a cultivation medium carried out by white-rot fungus, Pleurotus ostreatus. We determined the removal efficiency of pharmaceuticals and the activity of fungal ligninolytic enzymes over time, as well as the toxicity of pre- and post-cultivation medium to Spirostomum ambiguum. We showed that P. ostreatus can remove from the model medium most of the pharmaceuticals studied, including clomipramine, mianserin, paroxetine, sertraline, and mycophenolic acid. Pharmaceuticals containing phenolic or benzene moieties, likewise in the natural monolignols, were removed in a high efficiency within a short time. The activity of the fungal ligninolytic enzymes, laccase, and lignin peroxidase, in the cultivation medium, was three times higher in the presence of the pharmaceuticals, which justifies their contribution to the degradation. The post-cultivation medium showed lower toxicity than pre-cultivation medium and toxic units were 7- and 2-fold lower for the sublethal and lethal response, respectively. Over twenty metabolites we detected resulted mostly from oxygenation or demethylation of parent pharmaceuticals. The biological treatment we developed using P. ostreatus -based system should be convenient and effective in mycoremediation of environmental wastewater polluted with emerging contaminants including monolignol-like antidepressants and immunosuppressant. • Pleurotus ostreatus removes well monolignol-like antidepressants from cultivation. • P. ostreatus degradation of antidepressants reduces toxicity towards S. ambiguum. • Oxidation and demethylation are main metabolic transformations of antidepressants. • Mycoremediation might be used to decontaminate environment from antidepressants. [ABSTRACT FROM AUTHOR]

Published

2020

19. Source Analysis and Hazard Screening of Xenobiotic Organic Compounds in Wastewater from Food-Processing Industries

Author

Maya Altamira, Larisa, Eriksson, Eva, Baun, Anders, Maya Altamira, Larisa, Eriksson, Eva, and Baun, Anders

Abstract

In this study we present and apply a methodology for identifying environmentally hazardous compounds in food industry wastewaters (FIW). The methodology comprises a source analysis and a hazard screening of xenobiotic organic compounds based on environmental distribution, persistence, bioaccumulation, and toxicity in aqueous and solid phases. This approach was applied to four selected FIW representing fish, pork meat, and vegetable production. Included in this approach was an analytical–chemical screening of 137 xenobiotic organic compounds showing that 13 compounds and groups of compounds could be detected in the FIW composite samples. The combined source analysis revealed that 161 xenobiotic organic compounds could potentially be present in these four FIW. The main sources were raw materials and their processing, but also packaging and cleaning of the production facility contributed to the total number of compounds potentially present. Using the hazard screening procedure it was found that 29 and 102 compounds should be considered for further hazard assessment in the aqueous and solid phases, respectively. It is important to note that 12% of the 161 compounds could not be evaluated for environmental hazards due to lack of inherent data on degradability, toxicity, and bioaccumulation. Furthermore, for 91% of the compounds no information was found on anaerobic biodegradability. The presented procedure contributes with a systematic source analysis and a ranking of the xenobiotic organic compounds that could cause environmental concern. In this way the procedure can provide guidance to operators and decision makers on handling options for wastewater streams in food processing industries.

Published

2008