Impact of Nanoscale Magnetite and Zero Valent Iron on the Batch-Wise Anaerobic Co-Digestion of Food Waste and Waste-Activated Sludge

Kassab, Ghada; Khater, Dima; Odeh, Fadwa; Shatanawi, Khaldoun; Halalsheh, Maha; Arafeh, Mazen; Lier, Jules B. van

doi:10.3390/w12051283

Cited by 27 publications

(15 citation statements)

References 76 publications

(77 reference statements)

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“…However, in the experimental group with a high concentration of initial TAN in BW, the cumulative methane production was only 160.3 mL/g VS, which was 46.9% lower than the raw BW group. The result shows that reducing the initial TAN concentration of BW to a certain extent is very important to increase methane production, because it is conducive to improve hydrolysis efficiency which is considered the rate-limiting step [35,36] during the anaerobic digestion of solid organic matter.…”

Section: Methane Productionmentioning

confidence: 99%

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Anaerobic Co-Digestion of Kitchen Waste and Blackwater for Different Practical Application Scenarios in Decentralized Scale: From Wastes to Energy Recovery

Zhou

Wang

et al. 2020

Water

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This study was performed to investigate the anaerobic digestion feasibility of kitchen waste and blackwater under different scenarios in laboratory tests. According to biochemical methane potential tests, when the kitchen waste to blackwater solid ratio was 1:1, the cumulative methane production reached the highest amount at 313.2 mL/g volatile solids (VSs), which was 26.4% and 29.4% higher than the anaerobic monodigestion of kitchen waste and blackwater, respectively, indicating that the anaerobic codigestion of kitchen waste and blackwater had a synergetic effect. Furthermore, the effect of different initial total ammonia nitrogen concentrations in blackwater on anaerobic digestion was determined based on the above experimental results, thereby proving that reducing the total ammonia nitrogen concentration in blackwater can appropriately improve the efficiency of methane production. Therefore, anaerobic digestion is a suitable method for the biogas production of kitchen waste and blackwater. It is of great significance for the organic waste stream treatment of households in a decentralized scale, especially in rural areas.

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Section: Methane Productionmentioning

confidence: 99%

“…Water 2020, 12, x FOR PEER REVIEW 10 of 13 is conducive to improve hydrolysis efficiency which is considered the rate-limiting step [35,36] during the anaerobic digestion of solid organic matter.…”

Section: Methane Productionmentioning

confidence: 99%

Anaerobic Co-Digestion of Kitchen Waste and Blackwater for Different Practical Application Scenarios in Decentralized Scale: From Wastes to Energy Recovery

Zhou

Wang

et al. 2020

Water

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“…This study shows that under the stated experimental conditions (0 ≤ [Fe 0 ] (g/L) ≤ 10, for scrap iron), "cathodic H 2 " [23] from Fe 0 oxidation by water (Equation ( 2)) is highly effective in improving the performance of anaerobic digestion systems for the removal of organics from domestic sewage. Since the proof of concept in 1998 by Till [23] using nitrate as probe substance, an impressive body of research has been devoted to extend the application of Fe 0 -supported anaerobic digestion to wastewater treatment [22,[69][70][71][72][73] and biogas production [22,[74][75][76]. However, related investigations were mostly designed and performed on a pragmatic case-to-case basis [31,77].…”

Section: Significance Of the Resultsmentioning

confidence: 99%

Fe0-Supported Anaerobic Digestion for Organics and Nutrients Removal from Domestic Sewage

Bakari

Njau

Noubactep

2022

Water

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Results from different research suggest that metallic iron (Fe0) materials enhance anaerobic digestion (AD) systems to remove organics (chemical oxygen demand (COD)), phosphorus and nitrogen from polluted water. However, the available results are difficult to compare because they are derived from different experimental conditions. This research characterises the effects of Fe0 type and dosage in AD systems to simultaneously remove COD and nutrients (orthophosphate (PO43−), ammonium (NH4+), and nitrate (NO3− Lab-scale reactors containing domestic sewage (DS) were fed with various Fe0 dosages (0 to 30 g/L). Batch AD experiments were operated at 37 ± 0.5 °C for 76 days; the initial pH value was 7.5. Scrap iron (SI) and steel wool (SW) were used as Fe0 sources. Results show that: (i) SW performed better than SI on COD and PO43− removal (ii) optimum dosage for the organics and nutrients removal was 10 g/L SI (iii) (NO3− + NH4+) was the least removed pollutant (iv) maximum observed COD, PO43− and NO3− + NH4+ removal efficiencies were 88.0%, 98.0% and 40.0% for 10 g/L SI, 88.2%, 99.9%, 25.1% for 10 g/L SW, and 68.9%, 7.3% and 0.7% for the reference system. Fe0-supported AD significantly removed the organics and nutrients from DS.

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“…Intracellular NMDs in the bacterial cell facilitated the oxidation of organic matter by increasing the intracellular electron transfer rate between enzyme groups incorporated in hydrolysis and acidogenesis processes, resulting in the enhancement of overall process efficiency . Furthermore, NMDs tend to attach to the outer microbial membrane of acetogens and/or acidogens . This process promotes the rate of electron transport to enzymes involved in the H 2 -producing process such as ferredoxin oxidoreductase and hydrogenases with the aid of c -type cytochromes …”

Section: Interspecies Electron Transferring (Iet) Via a Biotic–biotic...mentioning

confidence: 99%

“…69 Furthermore, NMDs tend to attach to the outer microbial membrane of acetogens and/or acidogens. 70 This process promotes the rate of electron transport to enzymes involved in the H 2 -producing process such as ferredoxin oxidoreductase and hydrogenases with the aid of c-type cytochromes. 71 Most studies utilized NPs in a certain size range (below 100 nm).…”

Section: ■ Interspecies Electron Transferring (Iet)mentioning

confidence: 99%

Perspectives on Potential Applications of Nanometal Derivatives in Gaseous Bioenergy Pathways: Mechanisms, Life Cycle, and Toxicity

Elsamadony

Elreedy

Mostafa

et al. 2021

ACS Sustainable Chem. Eng.

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Nanosized metal derivatives (NMDs), referring to metals and their oxides, are extensively utilized as additives for anaerobic digestion (AD) and dark fermentation (DF) processes, for enhancing the production of methane (CH 4 ) and hydrogen (H 2 ), respectively. NMDs-derived positive impacts were widely confirmed in many previous studies; however, no consensus exists about how these have been acquired. Undoubtedly, NMDs affect extracellular electron transfer (EET). Consequently, we explore how biotic−biotic interactions, referring to direct interspecies electron transfer (DIET) among AD partners, and biotic−abiotic exchanges, which are mediated by redox reactions with metals, are affected. In this perspective, the mechanisms behind all those effects are reviewed and explained in detail, considering the specific properties of each NMD, e.g., size and type. We discuss previous studies that offer contradicting interpretations about which process dominates metal oxidation, metal reduction, or DIET. In addition, the fate of NMDs residues in the digestate after the treatment process is discussed, focusing on NMDs toxicity. From previous literature, the environmental impacts are evaluated for the production process of NMDs that are utilized in AD and DF processes via life-cycle assessment. This review provides a comprehensive understanding of NMDs−microbes interactions, which are mandatory for (i) building clear scientific knowledge about processes in play and (ii) engineering favorable conditions to achieve optimum yields in AD and DF processes.

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Impact of Nanoscale Magnetite and Zero Valent Iron on the Batch-Wise Anaerobic Co-Digestion of Food Waste and Waste-Activated Sludge

Cited by 27 publications

References 76 publications

Anaerobic Co-Digestion of Kitchen Waste and Blackwater for Different Practical Application Scenarios in Decentralized Scale: From Wastes to Energy Recovery

Anaerobic Co-Digestion of Kitchen Waste and Blackwater for Different Practical Application Scenarios in Decentralized Scale: From Wastes to Energy Recovery

Fe0-Supported Anaerobic Digestion for Organics and Nutrients Removal from Domestic Sewage

Perspectives on Potential Applications of Nanometal Derivatives in Gaseous Bioenergy Pathways: Mechanisms, Life Cycle, and Toxicity

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