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BIOGAS PROCTION FROM ANAEROBIC CO-DIGESTION OF COW DUNG AND ORGANIC WASTES (NAPIER PAK CHONG I AND FOOD WASTE) IN THAILAND: TEMPERATURE EFFECT ON BIOGAS PRODUCT

Lertluck Saitawee1, KanokornHussaro1, Sombat Teekasap2 and Noppadon Cheamsawat3
  • 1 Rajamangala University of Technology Rattanakosin, Thailand
  • 2 Eastern Asia University, Thailand
  • 3 King Mongkut’s University of Technology Thonburi, Thailand

Abstract

Biogas production has been attracting increasing attention as a biofuel of the future because biogas technology not only constitutes a biofuel source, but also can be applied in the various environmental pollutants. Anaerobic digestion of high solid slurries (such as food waste and cow dung) is typically performed in continuously reactor (by force substrate flow) to avoid problems with a thick floating layer or large amounts of sediments. Temperature also seems to have profound influence on the biogas production. The objective of the study was to identify the optimum biogas production for anaerobic co-digestion of cow dung and organic wastes (napierpakchong I and food waste). Influence of temperature (psyhrophilic temperature 25°C and thermoplilic temperature 45°C) and active biogas process on single substrate (food waste feed) and co-digestion of cow dung and organic wastes (napierpakchong I and food waste) was used, within the reactor was studies in 1.80 cm high over a 45 day. Results showed that best digestion was achieved when digested of cow dung, napierpakchong I and food waste) on 1:1:1 and thermoplilic temperature. Maximum biogas production (R4), biogas yield, methane content and %VS reduction was found that 70 L/day, 70 L/VS feed, 65 and 80%, respectively. The result showed that the biogas production increased progressively withhigher temperature.The increased in biogas production in thermophilic temperature and psyhrophilic temperature could be up 28.01 and 26%, respectively. The biogas yield increased 12.5% of co-digestion system, which compared to thermophilic temperature and psyhrophilic temperature (R4 and R2). This behavior might be due to the higher degradability. Therefore, temperature of digester can be used effectively as an operating strategy to optimize biogas production.

American Journal of Environmental Sciences
Volume 10 No. 2, 2014, 129-139

DOI: https://doi.org/10.3844/ajessp.2014.129.139

Submitted On: 7 February 2014 Published On: 1 April 2014

How to Cite: Saitawee, L., KanokornHussaro, ., Teekasap, S. & Cheamsawat, N. (2014). BIOGAS PROCTION FROM ANAEROBIC CO-DIGESTION OF COW DUNG AND ORGANIC WASTES (NAPIER PAK CHONG I AND FOOD WASTE) IN THAILAND: TEMPERATURE EFFECT ON BIOGAS PRODUCT. American Journal of Environmental Sciences, 10(2), 129-139. https://doi.org/10.3844/ajessp.2014.129.139

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Keywords

  • Biogas Production
  • Methane Content
  • Napierpakchong I
  • Organics Waste
  • Cow Dung
  • Food Waste
  • Thermoplilic Temperature
  • Psyhrophilic Temperatureand Anaerobic Co-Digestion