Performance Analysis of Biogas Production
Keywords:
Biogas, Biomass, Anaerobic Digestion, Methane, Renewable EnergyAbstract
The main aim of this study is to produce the biogas from food wastes. In our institute we have two hostels and having their own mess, where daily a large amount of Food waste is obtained which can be utilized for better purposes. Biogas production requires anaerobic digestion. Project was to create an Organic Processing Facility to create biogas which will be more cost effective, eco-friendly, cut down on landfill waste, generate a high-quality renewable fuel, and reduce carbon dioxide & methane emissions. The continuously-fed digester requires addition of sodium hydroxide (NaOH) to maintain the alkalinity and pH to 7. In our study, the production of biogas and methane is done from the starch-rich and sugary material and is determined at laboratory scale using the simple digesters.
References
- Kale, S.P and Mehele, S.T. Food waste based biogas plant.pdf. Nuclear agriculture and Biotechnology/ Division.
- Karve .A.D. (2007), Compact biogas plant, a low cost digester for biogas from waste starch. http://www.arti-india.org.
- Karve of Pune A.D (2006). Compact biogas plant compact low-cost digester from waste starch. www.bioenergylists.org.
- Shalini sing, sushil kumar, M.C. Jain, Dinesh kumar (2000), the increased biogas production using microbial stimulants.
- Hilkiah Igoni, M. F. N. Abowei, M. J. Ayotamuno and C. L. Eze (2008), Effect of Total Solids Concentration of Municipal Solid Waste on the Biogas Produced in an Anaerobic Continuous Digester.
- Tanzania Traditional Energy Development and Environment Organization (TaTEDO), BIOGAS TECHNOLOGY- Construction, Utilization and Operation Manual.
- The University of Southampton and Greenfinch Ltd. - Biodigestion of Foodwaste A comparative evaluation of mesophilic and thermophilic biodigestion for the stabilisation and sanitisation of Foodwaste.
- Ranjeet Singh, S. K. Mandal, V. K. Jain (2008), Development of mixed inoculum for methane enriched biogas production
- Jantsch, T.G., Matttiason, B. (2004). An automated spectropphoyometric system for monitoring buffer capacity in anaerobic digestion processes. Water Research. 38: 3645-3650.
- Thomsen, A.B., Lissens, G., Baere, L., Verstraete, W., Ahring, B. (2004). Thermal wet oxidation improves anaerobic biodegradability of raw and digested biowaste. Environmental Science and Technology.38: 3418-342
- Meres, M., Szczepaniec-Cieciak, E., Sadowska, A., Piejko, K., Oczyszczania, M.P., Szafnicki, K. (2004). Operational and meteorological influence on the utilized biogas composition at the Barycz landfill site in Cracow, Poland. Waste Management Resource. 22: 195–201.
- Mitsubayashi K., Nishio G., Sawai M., Saito T., Kudo H., Saito H., Otsuka K., Noguer T., Marty J-L., A bio-sniffer stick with FALDH (formaldehyde dehydrogenase) for convenient analysis of gaseous formaldehyde. Sens. Actuators B 130 (2008) 32-37.
- H. Kudo, M. Sawai, Y. Suzuki, X. Wang, T. Gessei, D. Takahashi, T. Arakawa, K. Mitsubayashi, “Fiber optic biosniffer (biochemical gas sensor) for high selective monitoring of ethanol vapor using 335 nm UV-LED,” Sens. Actuator B-Chem, 147, 2010, 676-680.
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