Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse

Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse Publisher

Eslami F^{1, 2} ; Yaghmaeian K^{3, 4} ; Shokoohi R⁵ ; Sajjadipoya R⁶ ; Rahmani A⁵ ; Askarpur H⁸ ; Norouzian Baghani A⁹ ; Jafari Mansoorian H⁵ ; Jaberi Ansari F¹⁰

Show Affiliations

1. Department of Environmental Health Engineering, School of Health, Jiroft University of Medical Sciences, Jiroft, Iran
2. Department of Environmental Health Engineering, School of Public Health, Iran University of Medical Sciences, Tehran, Iran
3. Department of Environmental Health Engineering, Tehran University of Medical Sciences, Tehran, Iran
4. Center for Solid Waste Research, Institute for Environmental Research, Tehran University of Medical Sciences, Tehran, Iran
5. Department of Environmental Health Engineering, Faculty of Health and Research Center for Health Sciences, Hamadan University of Medical Sciences, Hamadan, Iran
6. Department of Environmental Health Engineering, Jondishapoor University of Medical Sciences, Ahwaz, Iran
7. Jiroft University of Medical Sciences, Jiroft, Iran
8. Clinical Research Development Unit, Imam Khomeini Hospital, Jiroft University of Medical Sciences, Jiroft, Iran
9. Environmental Health Research Center, Lorestan University of Medical Sciences, Khorramabad, Iran
10. Department of Medical Nanotechnology, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences, Tehran, Iran

Source: Heliyon Published:2024

Abstract

This study aimed to assess nano-pumice (NP) from pumice mining waste as a local, cost-effective anode catalyst in microbial fuel cells (MFCs) for treating edible vegetable oil refinery wastewater (EVORW) and generating bioenergy. Pumice mining waste was converted into nano in three stages: crushing up to ≤3 cm, reducing the size of the previous step particles to 150 μm and converting the previous step particles to <100 nm. Nano-pumice prepared was coated on the carbon cloth (CC) to increase anode surface area of MFC. Two MFCs were utilized, with MFC-1 serving as a control and MFC-2 incorporating a CC electrode coated with nano-pumice. The surface morphology, elemental and chemical composition, and textural characterization of CC, pumice, NP, and CC coated with NP were analyzed using FE-SEM, EDX, XRF, and BET techniques. MFC-2 achieved a maximum power density of 30±4W/m³ at a current density of 55±5A/m³. The MFC-1 reached a maximum power density of 18±4W/m³ at a current density of 35±6A/m³. In MFC-2, the EVORW treatment achieved maximum removals of COD (94 ± 2 %), NH4+-N (85 ± 4 %), TP (76 ± 5 %), SO42− (68 ± 6 %), TSS (81 ± 2 %), and TDS (73 ± 1 %). MFC-1 achieved removal efficiencies of 66 ± 3 % for COD, 57 ± 6 % for NH4+-N, 48 ± 3 % for TP, 45 ± 3 % for SO42−, 65 ± 3 % for TSS, and 61 ± 1 % for TDS. MFC-2 power density rose significantly, reaching 61 ± 3 % (1.6 times) higher than MFC-1and it also demonstrated a superior ability to improve raw wastewater quality compared to MFC-1. The MFC with the CC/NP anode exhibited both excellent power production and high COD removal efficiency, making nano-pumice a suitable anode catalyst for MFC applications. © 2024 The Author(s)

2. Treatment of Vegetable Oil Industry Wastewater and Bioelectricity Generation Using Microbial Fuel Cell Via Modification and Surface Area Expansion of Electrodes, Journal of Chemical Technology and Biotechnology (2023)

3. Evaluation of Dairy Industry Wastewater Treatment and Simultaneous Bioelectricity Generation in a Catalyst-Less and Mediator-Less Membrane Microbial Fuel Cell, Journal of Saudi Chemical Society (2016)

Experts (# of related papers)

Kamyar Yaghmaeian (2)

Mahmood Alimohammadi (1)

Style	Citing Format
MLA	Eslami F, et al.. "Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse." Heliyon, vol. 10, no. 23, 2024, pp. -.
APA	Eslami F, Yaghmaeian K, Shokoohi R, Sajjadipoya R, Rahmani A, Askarpur H, Norouzian Baghani A, Jafari Mansoorian H, Jaberi Ansari F (2024). Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse. Heliyon, 10(23), -.
Chicago	Eslami F, Yaghmaeian K, Shokoohi R, Sajjadipoya R, Rahmani A, Askarpur H, Norouzian Baghani A, Jafari Mansoorian H, Jaberi Ansari F. "Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse." Heliyon 10, no. 23 (2024): -.
Harvard	Eslami F et al. (2024) 'Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse', Heliyon, 10(23), pp. -.
Vancouver	Eslami F, Yaghmaeian K, Shokoohi R, Sajjadipoya R, Rahmani A, Askarpur H, et al.. Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse. Heliyon. 2024;10(23):-.
BibTex	@article{ author = {Eslami F and Yaghmaeian K and Shokoohi R and Sajjadipoya R and Rahmani A and Askarpur H and Norouzian Baghani A and Jafari Mansoorian H and Jaberi Ansari F}, title = {Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse}, journal = {Heliyon}, volume = {10}, number = {23}, pages = {-}, year = {2024} }
RIS	TY - JOUR AU - Eslami F AU - Yaghmaeian K AU - Shokoohi R AU - Sajjadipoya R AU - Rahmani A AU - Askarpur H AU - Norouzian Baghani A AU - Jafari Mansoorian H AU - Jaberi Ansari F TI - Nano-Pumice Derived From Pumice Mine Waste As a Low-Cost Electrode Catalyst for Microbial Fuel Cell Treating Edible Vegetable Oil Refinery Wastewater for Bioenergy Generation and Reuse JO - Heliyon VL - 10 IS - 23 SP - EP - PY - 2024 ER -

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