Biogas production from beverage factory wastewater in a mobile bioenergy station
Beverages; Bioreactors; Chemical oxygen demand; Earnings; Energy efficiency; Methane; Tanks (containers); Anaerobic fermentation; Bio-energy systems; Biogas production rates; COD removal efficiency; Commercial potential; Hydraulic retention time; Membrane bioreactor; Methane concentrations; Biogas;...
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2023
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my.uniten.dspace-263382023-05-29T17:09:17Z Biogas production from beverage factory wastewater in a mobile bioenergy station Lin C.-Y. Lay C.-H. Chew K.W. Nomanbhay S. Gu R.-L. Chang S.-H. Kumar G. Show P.L. 8676279200 7006264246 57192980692 22135844300 57219389370 57154986100 7202418804 47861451300 Beverages; Bioreactors; Chemical oxygen demand; Earnings; Energy efficiency; Methane; Tanks (containers); Anaerobic fermentation; Bio-energy systems; Biogas production rates; COD removal efficiency; Commercial potential; Hydraulic retention time; Membrane bioreactor; Methane concentrations; Biogas; biogas; biofuel; methane; bioenergy; biogas; bioreactor; chemical oxygen demand; concentration (composition); detection method; energy efficiency; fermentation; membrane; methane; methanogenesis; nitrate; wastewater; wastewater treatment; anaerobic digestion; anaerobic fermentation; Article; beverage; bioenergy; biofuel production; chemical oxygen demand; controlled study; energy balance; energy consumption; hydraulic retention time; methanogenesis; reactor operation; seed inoculation; swine manure; thermal conductivity; waste water; anaerobic growth; beverage; bioreactor; sewage; Taiwan; Taiwan; Anaerobiosis; Beverages; Biofuels; Bioreactors; Methane; Taiwan; Waste Disposal, Fluid; Waste Water Recently, the production of renewable biogas such as biohydrogen and biomethane from wastewaters through anaerobic fermentation has gained worldwide attention. In the present study, a mobile bioenergy generation station had been constructed based on a high-efficiency hydrogenesis & methanogenesis technology (HyMeTek) developed by Feng Chia University, Taiwan. The substrate was a beverage wastewater having chemical oxygen demand (COD) concentration of 1200 mg/L. This bioenergy station had a feedstock tank (3.8 m3), a nutrient tank (0.8 m3), an acidogenesis tank (AT, 2 m3), two methanogenesis tanks (MT, 4 m3 for each), a membrane bioreactor and a control room. Biogas production rate, methane concentration, COD removal efficiencies, energy efficiency and economical interest of the plant were assessed. The peak total methane production rates for AT (at hydraulic retention time, HRT, 4 h) and MT (at HRT 8 h) were 430 and 7 mL/L�d, respectively. A strategy of shortening HRT was a promising method to enhance biogas quality and energy efficiency. This mobile bioenergy system has commercial potential because it could bring good economic benefit of initial rate of return (58.84%) and payback time (2.68 y). � 2020 Elsevier Ltd Final 2023-05-29T09:09:17Z 2023-05-29T09:09:17Z 2021 Article 10.1016/j.chemosphere.2020.128564 2-s2.0-85092535751 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85092535751&doi=10.1016%2fj.chemosphere.2020.128564&partnerID=40&md5=6005519d08f7c77af6a28c1416ffeedb https://irepository.uniten.edu.my/handle/123456789/26338 264 128564 Elsevier Ltd Scopus |
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Beverages; Bioreactors; Chemical oxygen demand; Earnings; Energy efficiency; Methane; Tanks (containers); Anaerobic fermentation; Bio-energy systems; Biogas production rates; COD removal efficiency; Commercial potential; Hydraulic retention time; Membrane bioreactor; Methane concentrations; Biogas; biogas; biofuel; methane; bioenergy; biogas; bioreactor; chemical oxygen demand; concentration (composition); detection method; energy efficiency; fermentation; membrane; methane; methanogenesis; nitrate; wastewater; wastewater treatment; anaerobic digestion; anaerobic fermentation; Article; beverage; bioenergy; biofuel production; chemical oxygen demand; controlled study; energy balance; energy consumption; hydraulic retention time; methanogenesis; reactor operation; seed inoculation; swine manure; thermal conductivity; waste water; anaerobic growth; beverage; bioreactor; sewage; Taiwan; Taiwan; Anaerobiosis; Beverages; Biofuels; Bioreactors; Methane; Taiwan; Waste Disposal, Fluid; Waste Water |
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8676279200 |
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8676279200 Lin C.-Y. Lay C.-H. Chew K.W. Nomanbhay S. Gu R.-L. Chang S.-H. Kumar G. Show P.L. |
| format |
Article |
| author |
Lin C.-Y. Lay C.-H. Chew K.W. Nomanbhay S. Gu R.-L. Chang S.-H. Kumar G. Show P.L. |
| spellingShingle |
Lin C.-Y. Lay C.-H. Chew K.W. Nomanbhay S. Gu R.-L. Chang S.-H. Kumar G. Show P.L. Biogas production from beverage factory wastewater in a mobile bioenergy station |
| author_sort |
Lin C.-Y. |
| title |
Biogas production from beverage factory wastewater in a mobile bioenergy station |
| title_short |
Biogas production from beverage factory wastewater in a mobile bioenergy station |
| title_full |
Biogas production from beverage factory wastewater in a mobile bioenergy station |
| title_fullStr |
Biogas production from beverage factory wastewater in a mobile bioenergy station |
| title_full_unstemmed |
Biogas production from beverage factory wastewater in a mobile bioenergy station |
| title_sort |
biogas production from beverage factory wastewater in a mobile bioenergy station |
| publisher |
Elsevier Ltd |
| publishDate |
2023 |
| _version_ |
1806427322376519680 |
| score |
13.214268 |