Improvement of Renewable Bioenergy Production in Microbial Fuel Cells with Saponin Supplementation

Skylar Choi; Yongjin Park; Immanuel H. Anaborne; Jin Sik Song; Ji Woo Han; So Hyun Jeon; Jaewoo Kim; James Kim; Jinkwon Lee; Paul S. Chung

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Improvement of Renewable Bioenergy Production in Microbial Fuel Cells with Saponin Supplementation

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Microbial fuel cell (MFC) is one of renewable biofuel production technology that directly converts biomass to electricity. Cellulosic biomass is particularly attractive renewable resources for its low cost and abundance and neutral carbon balance. However, methanogenesis remains as a major factor limiting MFC performance. The current study reports that saponin addition at 0.05% w/v dose to anolyte in MFCs inhibited methanogenesis and improves power generation and cellulose fermentation. Mediator-less two chamber H-type MFCs were prepared using rumen fluid as anode inocula at 20% v/v of anolyte to convert finely ground pine tree (Avicel) at 2%, w/v to electricity. Saponin was added to the anode of MFC at 0.005% or 0.05% v/v dosage for treatment. MFC power and current across an external resistor were measured daily for 10d. On d10, collected gases from anode compartment were measured for total gas volume and analyzed for gas composition on gas chromatography. Supplementation of saponin to MFC at 0.005% did not have any effects on electricity generation or biogas production and composition. Saponin at 0.05% dose reduced 10% of methane production and increased 40% of CO2 production and 6.4% of total gas production for 10d MFC operation. Voltage across resistor prior to treatment addition (d0) was 164.75 ± 9.07 mV. In control group, voltage across resistor did not change (P = 0.9153) with time course and mean was 167.8 ± 8.20 mV ranged from 157 to 174.5 mV during 10d operation. In 0.05% Saponin group, voltage across resistor increased (P 0.0001) after d2 and mean was 187.3 ± 4.30 mV ranged between 161.5 and 204.0 mV and the 10d mean of voltage across resistor in 0.05% Saponin was greater (P 0.0001) than in control group. 0.05% Saponin also had greater voltage across resistor at d5 (P = 0.0030) and d6 (P = 0.0246) than control. End point potential increased (P 0.0001) in 0.05% Saponin after d2. 0.05% Saponin had greater (P 0.0001) in 0.05% Saponin. Power density increased (P 0.0001) after d2 in 0.05% Saponin. 0.05% Saponin MFCs had greater (P 0.0001) overall mean of 10d operation. The current study provides strong background for potential use of saponin and saponin containing natural resources for methanogenesis inhibitor and cellulolysis enhancer in MFC and also cellulolysis reactors.

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《可持续生物质能源系统（英文）》 |2021年第2期|P.82-93|共12页
作者
Skylar Choi; Yongjin Park; Immanuel H. Anaborne; Jin Sik Song; Ji Woo Han; So Hyun Jeon; Jaewoo Kim; James Kim; Jinkwon Lee; Paul S. Chung;
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作者单位

Horace Greeley High School Chappaqua NY USA;

Deerfield Academy Deerfield MA USA;

Oakton High School Vienna VA USA;

School of Arts & Sciences University of Virginia Charlottesville VA USA;

School of Arts & Sciences Emory University Atlanta GA USA;

Bachelor of Science Villanova University Villanova PA USA;

College of Letters & Sciences University of California Los Angeles Los Angeles CA USA;

School of Arts & Sciences University of Michigan Ann Arbor MI USA;

Division of Biological Sciences Revelle College University of California San Diego CA USA;

Fuzbien Technology Institute Rockville MD USA;

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原文格式 PDF
正文语种 chi
中图分类无机化学;
关键词
Microbial Fuel Cells; Saponin; Bioenergy;

Improvement of Renewable Bioenergy Production in Microbial Fuel Cells with Saponin Supplementation

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