Effects of Adding Zero Valent Iron on the Anaerobic Digestion of Cow Manure and Lignocellulose

Men, Yu; Zheng, Lei; Zhang, Lingling; Li, Zifu; Wang, Xuemei; Zhou, Xiaoqin; Cheng, Shikun; Bao, Wenjun

doi:10.3389/fbioe.2020.590200

Cited by 14 publications

(3 citation statements)

References 38 publications

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“…The percentage of biogas and methane yields from this research was lesser than these improvements at Fe 3 O 4 alone and combined with particle size reduction. This result negates what was recorded by Men et al (2020) that adding zero-valent iron during anaerobic digestion improved the anaerobic digestion of easily digestible substrates but inhibited the digestion of lignocellulose materials. But, Olatunji et al (2021) have established the effect of nanomaterials on biogas and methane yields.…”

Section: Discussioncontrasting

confidence: 89%

Experimental evaluation of the influence of combined particle size pretreatment and Fe₃O₄additive on fuel yields ofArachis Hypogeashells

et al. 2022

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A smart energy recovery process can achieve maximum energy recovery from organic wastes. Pretreatment of feedstock is essential to biogas and methane yields during the anaerobic digestion process. This work combined particle size reduction with Fe3O4 nanoparticles to investigate their influence on biogas and methane yields from anaerobic digestion of Arachis hypogea shells. Twenty milligrams per litre of Fe3O4 nanoparticles was implemented with 2, 4, 6 and 8 mm particle sizes and a single treatment of Fe3O4 for 35 days. The treatments were compared with each other and were discovered to significantly ( p < 0.05) enhance biogas yield by 37.40%, 50.10%, 54.40%, 51.40% and 35.50% compared with control, respectively. Specific biogas yield recorded was 966.2, 1406, 1552.7, 1317.4, 766.2 and 413 mL g−1 volatile solid. This study showed the combination of Fe3O4 with 6 mm particle size of Arachis hypogea shells produced the optimum biogas and methane yields. The addition of Fe3O4 to particle sizes below 6 mm resulted in over-accumulation of volatile fatty acids and lowered the gas yield. This can be applied on an industrial scale.

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Section: Discussioncontrasting

confidence: 89%

Experimental evaluation of the influence of combined particle size pretreatment and Fe₃O₄additive on fuel yields ofArachis Hypogeashells

et al. 2022

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“…When 20 g/L was investigated, a 43.5% increase in methane yield was recorded, which was lower than the ranges recorded here [72]. Men et al [73] experimented with using 10 g/L of zero-valent iron on the anaerobic digestion of lignocellulose materials, and there was a 10.3% decrease in cumulative methane yield. This result is contrary to what was reported when a lower concentration, of 5 and 10 g/mL, was applied during the anaerobic digestion of durum wheat [70].…”

Section: Effects Of Pretreatment On Cumulative Methane Yieldcontrasting

confidence: 56%

Effect of Combined Particle Size Reduction and Fe3O4 Additives on Biogas and Methane Yields of Arachis hypogea Shells at Mesophilic Temperature

et al. 2022

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Enzymatic hydrolysis of lignocellulose materials has been identified as the rate-limiting step during anaerobic digestion. The application of pretreatment techniques can influence the biodegradability of lignocellulose substrate. This study combined Fe3O4 nanoparticles, which serve as a heterogeneous catalyst during anaerobic digestion, with different particle sizes of Arachis hypogea shells. Batch anaerobic digestion was set up at mesophilic temperature for 35 days. The results showed that 20 mg/L Fe3O4 additives, as a single pretreatment, significantly influence biogas and methane yields with an 80.59 and 106.66% increase, respectively. The combination of 20 mg/L Fe3O4 with a 6 mm particle size of Arachis hypogea shells produced the highest cumulative biogas yield of 130.85 mL/gVSadded and a cumulative methane yield of 100.86 mL/gVSadded. This study shows that 20 mg/L of Fe3O4 additive, combined with the particle size pretreatment, improved the biogas and methane yields of Arachis hypogea shells. This result can be replicated on the industrial scale to improve the energy recovery from Arachis hypogea shells.

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“…The increases could have been attributed to the effect of IONPs in syntrophic/cooperative metabolism between electron-donating and electron-accepting microorganisms via direct interspecies electron transfer processes [35,36]. Yu et al [37] studied the effect of zero valent iron (ZVI) on the anaerobic digestion of cow manure. With the addition of 10 g/L ZVI, the cumulative methane and VFA yields decreased by 10.3% and 12%, respectively.…”

Section: Effect Of Ionps On Anaerobic Digestion (Ad) Of Cattle Manurementioning

confidence: 99%

Biostimulation of Anaerobic Digestion Using Iron Oxide Nanoparticles (IONPs) for Increasing Biogas Production from Cattle Manure

et al. 2022

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The effect of synthesised IONPs employing a nontoxic leaf extract of Azadirachta indica as a reducing, capping, and stabilizing agent for increasing biogas and methane output from cattle manure during anaerobic digestion (AD) was investigated in this study. Furthermore, the UV-visible spectra examination of the synthesized nanoparticles revealed a high peak at 432 nm. Using a transmission electron microscope, the average particle size of IONPs observed was 30–80 nm, with irregular, ultra-small, semi-spherical shapes that were slightly aggregated and well-distributed. IONPs had a polydisparity index (PDI) of 219 nm and a zeta potential of −27.0 mV. A set of six bio-digesters were fabricated and tested to see how varying concentrations of IONPs (9, 12, 15, 18, and 21 mg/L) influenced biogas, methane output, and effluent chemical composition from AD at mesophilic temperatures (35 ± 2 °C). With 18 mg/L IONPs, the maximum specific biogas and methane production were 136.74 L/g of volatile solids (VS) and 64.5%, respectively, compared to the control (p < 0.05), which provided only 107.09 L/g and 51.4%, respectively. Biogas and methane production increased by 27.6% and 25.4%, respectively using 18 mg/L IONPs as compared to control. In all treatments, the pH of the effluent was increased, while total volatile fatty acids, total solids, volatile solids, organic carbon content, and dehydrogenase activity decreased. Total solid degradation was highest (43.1%) in cattle manure + 18 mg/L IONPs (T5). According to the results, the IONPs enhanced the yield of biogas and methane when compared with controls.

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Effects of Adding Zero Valent Iron on the Anaerobic Digestion of Cow Manure and Lignocellulose

Cited by 14 publications

References 38 publications

Experimental evaluation of the influence of combined particle size pretreatment and Fe₃O₄additive on fuel yields ofArachis Hypogeashells

Experimental evaluation of the influence of combined particle size pretreatment and Fe₃O₄additive on fuel yields ofArachis Hypogeashells

Effect of Combined Particle Size Reduction and Fe3O4 Additives on Biogas and Methane Yields of Arachis hypogea Shells at Mesophilic Temperature

Biostimulation of Anaerobic Digestion Using Iron Oxide Nanoparticles (IONPs) for Increasing Biogas Production from Cattle Manure

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Effects of Adding Zero Valent Iron on the Anaerobic Digestion of Cow Manure and Lignocellulose

Cited by 14 publications

References 38 publications

Experimental evaluation of the influence of combined particle size pretreatment and Fe3O4additive on fuel yields ofArachis Hypogeashells

Experimental evaluation of the influence of combined particle size pretreatment and Fe3O4additive on fuel yields ofArachis Hypogeashells

Effect of Combined Particle Size Reduction and Fe3O4 Additives on Biogas and Methane Yields of Arachis hypogea Shells at Mesophilic Temperature

Biostimulation of Anaerobic Digestion Using Iron Oxide Nanoparticles (IONPs) for Increasing Biogas Production from Cattle Manure

Contact Info

Product

Resources

About

Experimental evaluation of the influence of combined particle size pretreatment and Fe₃O₄additive on fuel yields ofArachis Hypogeashells

Experimental evaluation of the influence of combined particle size pretreatment and Fe₃O₄additive on fuel yields ofArachis Hypogeashells