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  1. AU="Surendra, K C"
  2. AU=Lauber Mariko
  3. AU="McGowan, Patrick O"
  4. AU="Se Young An"
  5. AU=Cholewinski Grzegorz
  6. AU="Goldenstein, Patrícia T"
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  1. Artikel: Bioconversion of waste-to-resources (BWR-2021): Valorization of industrial and agro-wastes to fuel, feed, fertilizer, and biobased products

    Surendra, K.C. / Angelidaki, Irini / Khanal, Samir Kumar

    Bioresource technology. 2022 Mar., v. 347

    2022  

    Abstract: The mitigation of greenhouse gas (GHG) emission is one of the major focuses of The Glasgow Climate Pact, a global agreement that is believed to accelerate climate action. Following the energy sector, industrial and agro-wastes are the major contributors ... ...

    Abstract The mitigation of greenhouse gas (GHG) emission is one of the major focuses of The Glasgow Climate Pact, a global agreement that is believed to accelerate climate action. Following the energy sector, industrial and agro-wastes are the major contributors to global GHG emission. With the rapid growth in population, affluence, and urbanization, the GHG emission from waste sector is likely to be further aggravated if timely measures are not taken to address this burning issue. Thus, a significant research and development efforts are being made in shifting conventional waste treatment approach to resource recovery from waste, incorporating a circular bioeconomy concept. There have been significant advances in technologies such as anaerobic digestion, composting, pyrolysis, algae farming, and microbial fuel cell for recovering resources from organic wastes. This virtual special issue (VSI), “Bioconversion of Waste-to-Resources (BWR-2021)”, contains 25 manuscripts covering various aspects of wastes and residual biomass valorization to high value products, including development of new technologies, optimization of current technologies for more efficient utilization of wastes and residues. The key findings of each manuscript are briefly summarized here, which can serve as a valuable resource for researchers in the field of resource recovery from wastes.
    Schlagwörter agricultural wastes ; anaerobic digestion ; bioeconomics ; biomass ; biotransformation ; climate ; energy industry ; fertilizers ; greenhouse gas emissions ; greenhouse gases ; microbial fuel cells ; pyrolysis ; research and development ; urbanization ; waste treatment
    Sprache Englisch
    Erscheinungsverlauf 2022-03
    Erscheinungsort Elsevier Ltd
    Dokumenttyp Artikel
    ZDB-ID 1065195-0
    ISSN 1873-2976 ; 0960-8524
    ISSN (online) 1873-2976
    ISSN 0960-8524
    DOI 10.1016/j.biortech.2022.126739
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  2. Artikel ; Online: Bioconversion of waste-to-resources (BWR-2021): Valorization of industrial and agro-wastes to fuel, feed, fertilizer, and biobased products.

    Surendra, K C / Angelidaki, Irini / Khanal, Samir Kumar

    Bioresource technology

    2022  Band 347, Seite(n) 126739

    Abstract: The mitigation of greenhouse gas (GHG) emission is one of the major focuses of The Glasgow Climate Pact, a global agreement that is believed to accelerate climate action. Following the energy sector, industrial and agro-wastes are the major contributors ... ...

    Abstract The mitigation of greenhouse gas (GHG) emission is one of the major focuses of The Glasgow Climate Pact, a global agreement that is believed to accelerate climate action. Following the energy sector, industrial and agro-wastes are the major contributors to global GHG emission. With the rapid growth in population, affluence, and urbanization, the GHG emission from waste sector is likely to be further aggravated if timely measures are not taken to address this burning issue. Thus, a significant research and development efforts are being made in shifting conventional waste treatment approach to resource recovery from waste, incorporating a circular bioeconomy concept. There have been significant advances in technologies such as anaerobic digestion, composting, pyrolysis, algae farming, and microbial fuel cell for recovering resources from organic wastes. This virtual special issue (VSI), "Bioconversion of Waste-to-Resources (BWR-2021)", contains 25 manuscripts covering various aspects of wastes and residual biomass valorization to high value products, including development of new technologies, optimization of current technologies for more efficient utilization of wastes and residues. The key findings of each manuscript are briefly summarized here, which can serve as a valuable resource for researchers in the field of resource recovery from wastes.
    Mesh-Begriff(e) Biomass ; Composting ; Fertilizers ; Industry ; Pyrolysis
    Chemische Substanzen Fertilizers
    Sprache Englisch
    Erscheinungsdatum 2022-01-17
    Erscheinungsland England
    Dokumenttyp Editorial
    ZDB-ID 1065195-0
    ISSN 1873-2976 ; 0960-8524
    ISSN (online) 1873-2976
    ISSN 0960-8524
    DOI 10.1016/j.biortech.2022.126739
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  3. Artikel ; Online: Bioponic systems with biochar: Insights into nutrient recovery, heavy metal reduction, and microbial interactions in digestate-based bioponics.

    Wongkiew, Sumeth / Aksorn, Satja / Amnuaychaichana, Suchana / Polprasert, Chongrak / Noophan, Pongsak Lek / Kanokkantapong, Vorapot / Koottatep, Thammarat / Surendra, K C / Khanal, Samir Kumar

    Waste management (New York, N.Y.)

    2024  Band 178, Seite(n) 267–279

    Abstract: Bioponics is a nutrient-recovery technology that transforms nutrient-rich organic waste into plant biomass/bioproducts. Integrating biochar with digestate from anaerobic wastewater treatment process can improve resource recovery while mitigating heavy ... ...

    Abstract Bioponics is a nutrient-recovery technology that transforms nutrient-rich organic waste into plant biomass/bioproducts. Integrating biochar with digestate from anaerobic wastewater treatment process can improve resource recovery while mitigating heavy metal contamination. The overarching goal of this study was to investigate the application of biochar in digestate-based bioponics, focusing on its efficacy in nutrient recovery and heavy metal removal, while also exploring the microbial community dynamics. In this study, biochar was applied at 50 % w/w with 500 g dry weight of digestate during two 28-day crop cycles (uncontrolled pH and pH 5.5) using white stem pak choi (Brassica rapa var. chinensis) as a model crop. The results showed that the digestate provided sufficient phosphorus and nitrogen, supporting plant growth. Biochar amendment improved plant yield and phosphate solubilization and reduced nitrogen loss, especially at the pH 5.5. Furthermore, biochar reduced the heavy metal accumulation in plants, while concentrating these metals in the residual sludge. However, owing to potential non-carcinogenic and carcinogenic health risks, it is still not recommended to directly consume plants cultivated in digestate-based bioponic systems. Additionally, biochar amendment exhibited pronounced impact on the microbial community, promoting microbes responsible for nutrient solubilization and cycling (e.g., Tetrasphaera, Herpetosiphon, Hyphomicrobium, and Pseudorhodoplanes) and heavy metal stabilization (e.g., Leptolinea, Fonticella, Romboutsia, and Desulfurispora) in both the residual sludge and plants. Overall, the addition of biochar enhanced the microbial community and facilitated the metal stabilization and the cycling of nutrients within both residual sludge and root systems, thereby improving the overall efficiency of the bioponics.
    Mesh-Begriff(e) Sewage ; Charcoal ; Metals, Heavy/analysis ; Nutrients ; Nitrogen/analysis ; Microbial Interactions ; Soil
    Chemische Substanzen biochar ; Sewage ; Charcoal (16291-96-6) ; Metals, Heavy ; Nitrogen (N762921K75) ; Soil
    Sprache Englisch
    Erscheinungsdatum 2024-02-28
    Erscheinungsland United States
    Dokumenttyp Journal Article
    ZDB-ID 2001471-5
    ISSN 1879-2456 ; 0956-053X
    ISSN (online) 1879-2456
    ISSN 0956-053X
    DOI 10.1016/j.wasman.2024.02.027
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  4. Artikel ; Online: Effects of vermicompost leachate on nitrogen, phosphorus, and microbiome in a food waste bioponic system

    Wongkiew, Sumeth / Polprasert, Chongrak / Noophan, Pongsak (Lek) / Koottatep, T. / Kanokkantapong, Vorapot / Surendra, K.C. / Khanal, Samir Kumar

    Elsevier Ltd Journal of Environmental Management. 2023 Aug., v. 339 p.117860-

    2023  

    Abstract: Food waste is rich in nutrients, such as nitrogen and phosphorus, and can be integrated with bioponics, a closed-loop agricultural system that combines hydroponics with biological nutrient recovery. Vermicompost leachate (VCL) supplementation has been ... ...

    Abstract Food waste is rich in nutrients, such as nitrogen and phosphorus, and can be integrated with bioponics, a closed-loop agricultural system that combines hydroponics with biological nutrient recovery. Vermicompost leachate (VCL) supplementation has been shown to improve the co-composting of organic waste (i.e., compost quality) and the biodegradation of organic compounds. Thus, VCL has high potential for enhancing nutrient availability in bioponics from food waste. However, the understanding of nitrogen and phosphorus availability in food waste-based bioponics is limited, both with and without VCL. In this study, food waste derived from cafeteria vegetable waste was used as the substrate (500 g dry wt./system) in bioponics to grow lettuce (Lactuca sativa L.) for two consecutive cycles (35 days/cycle) without substrate replacement. VCL was applied weekly (1–5% v/v) and compared to the control without VCL. The results showed that the food waste in bioponics provided nitrogen and phosphorus for plant growth (15.5–65.8 g/lettuce head). Organic-degrading and nutrient-transforming bacteria (Hydrogenispora, Clostridium_sensu_stricto_1, Ruminiclostridium_1, Cellvibrio, Thauera, Hydrogenophaga, and Bacillus) were predominantly found in plant roots and residual food waste. VCL addition significantly increased nitrate, phosphate, and chemical oxygen demand levels in bioponics, owing to the nutrients in VCL and the enhancement of keystone microorganisms responsible for organic degradation and nutrient cycling (e.g., Ellin6067, Actinomyces, and Pirellula). These findings suggest that nitrogen, phosphorus, and organic carbon concentrations in an ecosystem of nutrient-transforming and organic-degrading microbes are key in managing nutrient recovery from food waste in bioponics.
    Schlagwörter Actinomyces ; Cellvibrio ; Hydrogenophaga ; Lactuca sativa ; Pirellula ; Thauera ; biodegradation ; cafeterias ; chemical oxygen demand ; compost quality ; composting ; ecosystems ; food waste ; hydroponics ; leachates ; lettuce ; microbiome ; nitrates ; nitrogen ; nutrient availability ; organic carbon ; phosphates ; phosphorus ; plant growth ; vegetable residues ; vermicomposts ; Microbial community ; Nutrient recovery ; Organic hydroponics ; Organic waste ; Probiotics
    Sprache Englisch
    Erscheinungsverlauf 2023-08
    Erscheinungsort Elsevier Ltd
    Dokumenttyp Artikel ; Online
    ZDB-ID 184882-3
    ISSN 1095-8630 ; 0301-4797
    ISSN (online) 1095-8630
    ISSN 0301-4797
    DOI 10.1016/j.jenvman.2023.117860
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  5. Artikel ; Online: Effects of Straw Biochar on Heavy Metal Cu in Soil Under Different Conditions

    Guo, Yiping / Tao, Xiangkai / Zhu, Weiyong / Ji, Yapeng / Surendra, K. C. / Khanal, Samir Kumar / Liu, Bingtao / Li, Guoting

    Communications in Soil Science and Plant Analysis. 2023 Jan. 19, v. 54, no. 2 p.203-217

    2023  

    Abstract: Biochar has been widely deemed as a soil conditioner to modify the physicochemical and biological properties of soil. In this research, the influence of different biochar application conditions on the effect of heavy metal Cu in soil was detected. In ... ...

    Abstract Biochar has been widely deemed as a soil conditioner to modify the physicochemical and biological properties of soil. In this research, the influence of different biochar application conditions on the effect of heavy metal Cu in soil was detected. In batch experiments, the combinations could definitely enhance the adsorption abilities, and under the combination ratio of 4 wt % biochar, 3 wt % wheat straw, and 5 wt % cow manure compost in the soil, the adsorption rate would be more than 97% in 60 mins. The adsorption kinetics showed the adsorption processes were multiphase diffusion processes and the conversion of activation energy in soil surface was obvious, while the isotherms analysis suggested the adsorption of Cu by the soil under various amendments was mainly monolayer adsorption as well as some other complex reactions. However, in the eluviation experiments, more and more Cu was lost in the leaching solutions when wheat straw and compost were added into the soil as well as biochar. pH values changes indicated that the connections among Cu and solids may be mostly related to the precipitation reaction in the eluviation experiments. FTIR analysis implied that the addition of wheat straw and compost in the biochar could indeed enhance the reaction between heavy metal Cu and soil, however, the reactions were rather complicated, and under the eluviation condition, there was not enough time to form the stable bonds, so more Cu was dissolved into the leaching water.
    Schlagwörter activation energy ; adsorption ; biochar ; chemical precipitation ; composted manure ; cow manure ; eluviation ; heavy metals ; pH ; plant analysis ; soil ; soil conditioners ; wheat straw ; Batch experiments ; Cow manure compost ; Eluviation experiments ; Heavy metal cu
    Sprache Englisch
    Erscheinungsverlauf 2023-0119
    Umfang p. 203-217.
    Erscheinungsort Taylor & Francis
    Dokumenttyp Artikel ; Online
    ZDB-ID 419718-5
    ISSN 1532-2416 ; 0010-3624
    ISSN (online) 1532-2416
    ISSN 0010-3624
    DOI 10.1080/00103624.2022.2112211
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  6. Artikel: Chicken manure-based bioponics: Effects of acetic acid supplementation on nitrogen and phosphorus recoveries and microbial communities

    Wongkiew, Sumeth / Polprasert, Chongrak / Koottatep, Thammarat / Limpiyakorn, Tawan / Surendra, K.C. / Khanal, Samir Kumar

    Elsevier Ltd Waste management. 2022 Jan. 01, v. 137

    2022  

    Abstract: Bioponics has the potential to recover nutrients from organic waste streams, such as chicken manure and digestate with high volatile fatty acid (VFA) contents through crop production. Acetic acid, a dominant VFA, was supplemented weekly (0, 500, 1000, ... ...

    Abstract Bioponics has the potential to recover nutrients from organic waste streams, such as chicken manure and digestate with high volatile fatty acid (VFA) contents through crop production. Acetic acid, a dominant VFA, was supplemented weekly (0, 500, 1000, and 1500 mg/L) in a chicken manure-based bioponic system, and its effect on the performance of bioponics (e.g., plant yield and nitrogen and phosphorus availabilities) was examined. Microbial communities were analyzed using 16S rRNA gene sequencing, and the functional gene abundances were predicted using PICRUSt. Although acetic acid negatively affected plant yield, no significant difference (p > 0.05) was noted in the average nitrogen or phosphorus concentration. In terms of nutrient recovery, the bioponic systems still functioned well, although higher concentrations of acetic acid decreased plant yield and altered the bacterial communities in plant roots and chicken manure sediments. These data suggest that an acetic acid concentration of < 500 mg/L or a longer loading interval is recommended for the effective operation of chicken manure and digestate-based bioponics.
    Schlagwörter acetic acid ; chickens ; crop production ; genes ; nitrogen ; phosphorus ; poultry manure ; volatile fatty acids ; waste management
    Sprache Englisch
    Erscheinungsverlauf 2022-0101
    Umfang p. 264-274.
    Erscheinungsort Elsevier Ltd
    Dokumenttyp Artikel
    ZDB-ID 2001471-5
    ISSN 1879-2456 ; 0956-053X
    ISSN (online) 1879-2456
    ISSN 0956-053X
    DOI 10.1016/j.wasman.2021.11.023
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  7. Artikel: Anaerobic co-digestion of various organic wastes: Kinetic modeling and synergistic impact evaluation

    Karki, Renisha / Chuenchart, Wachiranon / Surendra, K.C. / Sung, Shihwu / Raskin, Lutgarde / Khanal, Samir Kumar

    Bioresource technology. 2022 Jan., v. 343

    2022  

    Abstract: Anaerobic mono- and co-digestion of coffee pulp (CP), cattle manure (CM), food waste (FW) and dewatered sewage sludge (DSS), were assessed using biochemical methane potential tests. The effects of two different inocula, anaerobically digested cattle ... ...

    Abstract Anaerobic mono- and co-digestion of coffee pulp (CP), cattle manure (CM), food waste (FW) and dewatered sewage sludge (DSS), were assessed using biochemical methane potential tests. The effects of two different inocula, anaerobically digested cattle manure (ADCM) and anaerobically digested waste activated sludge (ADWAS), and five different co-feedstock ratios for CP:CM and FW:DSS (1:0, 4:1, 2:1, 4:3, and 0:1) on specific methane yields were also evaluated. Mono-digestions of both CP and FW yielded the highest methane yield compared to the co-digestion ratios examined. Furthermore, no synergistic or antagonistic effect was observed for any of the co-digestion ratios tested. Nine different kinetic models (five conventional mono-digestion models and four co-digestion models) were compared and evaluated for both mono- and co-digestion studies. For CP:CM, cone and modified Gompertz with second order equation models were the best-fit for mono- and co-digestion systems, respectively, while for FW:DSS, superimposed model showed the best-fit for all systems.
    Schlagwörter activated sludge ; anaerobic digestion ; cattle manure ; coffee pulp ; equations ; food waste ; inoculum ; methane ; methane production ; models ; sewage sludge
    Sprache Englisch
    Erscheinungsverlauf 2022-01
    Erscheinungsort Elsevier Ltd
    Dokumenttyp Artikel
    ZDB-ID 1065195-0
    ISSN 1873-2976 ; 0960-8524
    ISSN (online) 1873-2976
    ISSN 0960-8524
    DOI 10.1016/j.biortech.2021.126063
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  8. Artikel ; Online: Effects of vermicompost leachate on nitrogen, phosphorus, and microbiome in a food waste bioponic system.

    Wongkiew, Sumeth / Polprasert, Chongrak / Noophan, Pongsak Lek / Koottatep, Thammarat / Kanokkantapong, Vorapot / Surendra, K C / Khanal, Samir Kumar

    Journal of environmental management

    2023  Band 339, Seite(n) 117860

    Abstract: Food waste is rich in nutrients, such as nitrogen and phosphorus, and can be integrated with bioponics, a closed-loop agricultural system that combines hydroponics with biological nutrient recovery. Vermicompost leachate (VCL) supplementation has been ... ...

    Abstract Food waste is rich in nutrients, such as nitrogen and phosphorus, and can be integrated with bioponics, a closed-loop agricultural system that combines hydroponics with biological nutrient recovery. Vermicompost leachate (VCL) supplementation has been shown to improve the co-composting of organic waste (i.e., compost quality) and the biodegradation of organic compounds. Thus, VCL has high potential for enhancing nutrient availability in bioponics from food waste. However, the understanding of nitrogen and phosphorus availability in food waste-based bioponics is limited, both with and without VCL. In this study, food waste derived from cafeteria vegetable waste was used as the substrate (500 g dry wt./system) in bioponics to grow lettuce (Lactuca sativa L.) for two consecutive cycles (35 days/cycle) without substrate replacement. VCL was applied weekly (1-5% v/v) and compared to the control without VCL. The results showed that the food waste in bioponics provided nitrogen and phosphorus for plant growth (15.5-65.8 g/lettuce head). Organic-degrading and nutrient-transforming bacteria (Hydrogenispora, Clostridium_sensu_stricto_1, Ruminiclostridium_1, Cellvibrio, Thauera, Hydrogenophaga, and Bacillus) were predominantly found in plant roots and residual food waste. VCL addition significantly increased nitrate, phosphate, and chemical oxygen demand levels in bioponics, owing to the nutrients in VCL and the enhancement of keystone microorganisms responsible for organic degradation and nutrient cycling (e.g., Ellin6067, Actinomyces, and Pirellula). These findings suggest that nitrogen, phosphorus, and organic carbon concentrations in an ecosystem of nutrient-transforming and organic-degrading microbes are key in managing nutrient recovery from food waste in bioponics.
    Mesh-Begriff(e) Phosphorus/metabolism ; Food ; Refuse Disposal ; Nitrogen/analysis ; Microbiota ; Soil/chemistry
    Chemische Substanzen Phosphorus (27YLU75U4W) ; Nitrogen (N762921K75) ; Soil
    Sprache Englisch
    Erscheinungsdatum 2023-04-20
    Erscheinungsland England
    Dokumenttyp Journal Article
    ZDB-ID 184882-3
    ISSN 1095-8630 ; 0301-4797
    ISSN (online) 1095-8630
    ISSN 0301-4797
    DOI 10.1016/j.jenvman.2023.117860
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  9. Artikel ; Online: Nanobubble technology applications in environmental and agricultural systems: Opportunities and challenges

    Marcelino, Kyle Rafael / Ling, Li / Wongkiew, Sumeth / Nhan, Hua Thai / Surendra, K. C. / Shitanaka, Ty / Lu, Hui / Khanal, Samir Kumar

    Critical Reviews in Environmental Science and Technology. 2023 July 18, v. 53, no. 14 p.1378-1403

    2023  

    Abstract: In recent years, there has been growing interest in the varied applications of nanobubble technology. Given their unique physicochemical properties, such as minuscule size (< 1 µm), surface charge, and high internal pressure, nanobubbles (NB) could ... ...

    Abstract In recent years, there has been growing interest in the varied applications of nanobubble technology. Given their unique physicochemical properties, such as minuscule size (< 1 µm), surface charge, and high internal pressure, nanobubbles (NB) could provide new opportunities in the fields of environmental engineering (including environmental remediation, water treatment, aerobic fermentation, anaerobic digestion, and algal biomass production), and agriculture (including agronomy, horticulture, aquaculture, aquaponics, bioponics, and hydroponics). In addition, applying NB-derived reactive oxygen species (ROS) can inactivate pathogens in water treatment, remove harmful microorganisms on food, and remove persistent organic pollutants from wastewater (removal efficacies > 60%). NB technology can also maintain high aqueous phase dissolved oxygen levels compared to conventional aeration, as demonstrated in hydroponics and intensive crop farming, where NB-treated water led to increases in plant yields (10–40%). However, a concise and comprehensive source of information on the fundamental mechanisms involving NB technology is lacking. As NB applications advance into the biological frontier, these mechanisms serve as critical knowledge areas toward understanding the NB–biomolecular and cellular mechanisms of action. In addition, mass transfer performance is not stringently assessed. To advance and summarize current understanding, this review provides an updated, in-depth discussion of the fundamental mechanisms and performance of NB technologies for various applications in environmental and agricultural fields. Mechanistic details focusing on electrostatic and hydrophobic attachment, the formation of ROS, and gas–liquid mass transfer are discussed. This review further outlines the opportunities and challenges and concludes with important research needs in NB technology.
    Schlagwörter aeration ; agronomy ; algae ; anaerobic digestion ; aquaponics ; biomass production ; fermentation ; horticulture ; hydrophobicity ; hydroponics ; information sources ; mass transfer ; nanobubbles ; oxygen ; reactive oxygen species ; remediation ; wastewater ; water treatment ; Agriculture ; nanobubble ; nanobubble–cell interactions ; water and wastewater treatment ; Eakalak Khan and Lena Q. Ma
    Sprache Englisch
    Erscheinungsverlauf 2023-0718
    Umfang p. 1378-1403.
    Erscheinungsort Taylor & Francis
    Dokumenttyp Artikel ; Online
    ZDB-ID 2030115-7
    ISSN 1547-6537 ; 1064-3389
    ISSN (online) 1547-6537
    ISSN 1064-3389
    DOI 10.1080/10643389.2022.2136931
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  10. Artikel: Anaerobic membrane bioreactors for pharmaceutical-laden wastewater treatment: A critical review

    Singh Oberoi, Akashdeep / Surendra, K.C. / Wu, Di / Lu, Hui / Wong, Jonathan W.C. / Kumar Khanal, Samir

    Bioresource technology. 2022 July 18,

    2022  

    Abstract: Pharmaceuticalsare a diverse group of chemical compounds widely used for prevention and treatment of infectious diseases in both humans and animals. Pharmaceuticals, either in their original form or metabolites, find their way into the wastewater ... ...

    Abstract Pharmaceuticalsare a diverse group of chemical compounds widely used for prevention and treatment of infectious diseases in both humans and animals. Pharmaceuticals, either in their original form or metabolites, find their way into the wastewater treatment plants (WWTPs) from different sources. Recently, anaerobic membrane bioreactors (AnMBR) has received significant research attention for the treatment of pharmaceuticals in various wastewater streams. This review critically examines the behaviour and removal of a wide array of pharmaceuticals in AnMBR with primary focus on their removal efficiencies and mechanisms, critical influencing factors, and the microbial community structures. Subsequently, the inhibitory effects of pharmaceuticals on the performance of AnMBR and membrane fouling are critically discussed. Furthermore, the imperative role of membrane biofouling layer and its components in pharmaceuticals removal is highlighted. Finally, recent advancements in AnMBR configurations for membrane fouling control and enhanced pharmaceuticals removal are systemically discussed.
    Schlagwörter biofouling ; drugs ; membrane bioreactors ; metabolites ; microbial communities ; wastewater ; wastewater treatment
    Sprache Englisch
    Erscheinungsverlauf 2022-0718
    Erscheinungsort Elsevier Ltd
    Dokumenttyp Artikel
    Anmerkung Pre-press version
    ZDB-ID 1065195-0
    ISSN 1873-2976 ; 0960-8524
    ISSN (online) 1873-2976
    ISSN 0960-8524
    DOI 10.1016/j.biortech.2022.127667
    Datenquelle NAL Katalog (AGRICOLA)

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