63 / 2016-04-27 09:41:16
WASTE TO WEALTH: GREEN ENERGY GENERATION IN MALAYSIA
9940,9939,9938,6875,9937,9936,9935
Abstract Accepted
Marlia Mohd Hanafiah / Universiti Kebangsaan Malaysia
Muhammad Aqeel Ashraf / UMS
WASTE TO WEALTH: GREEN ENERGY GENERATION IN MALAYSIA

Marlia Mohd Hanafiah1,*, Mohamed Yasreen Mohamed Ali1, Mushrifah Idri1s, Muhammad Aqeel Ashraf2, Yeong Hui Wen1, Nur Fatin Baharudin1, Nurul Izzah Hamna Abdul Aziz1, Azhar Abdul Halim1

1School of Environmental and Natural Resource Sciences, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor, Malaysia
2Faculty of Science and Natural Resource Sciences, University Malaysia Sabah 88400 Kota Kinabalu, Sabah, Malaysia
*mhmarlia@ukm.edu.my

Biomass is an important renewable source of energy and has been used to provide energy to human activities. Residues obtained from harvesting and milling agricultural produces can be utilised as fuel for energy generation. Malaysia is gifted with conventional energy resources such as oil and gas as well as renewables like hydro, biomass and solar energy. The equatorial climate of Malaysia is ideal for dense tropical forest growth and agricultural vegetation. Biomass in Malaysia contributes about 14% of the approximately 340 million barrel of oil equivalent (boe) of energy used every year and wood products, palm oil mill effluents, goat dung, chicken dung, fish waste etc., are extensively utilised. Waste-derived biogas seems a promising technology to yield renewable, sustainable and green source of energy. This study was conducted to determine the production of biogas from six different substrates (i.e. goat dung, chicken dung, fish waste, rice waste, palm oil mill effluent and sewage sludge). The production of biogas from these substrates were compared using industrial inoculum and tradisional bokashi as catalysts. Biophysical characteristics were assessed using laboratory-based analyses, whereas the Bio-Methane Potential (BMP) assay was used to measure anaerobic biogas production in mesophilic condition for 20 consecutive days. In this study, we found that rice waste using industrial inoculum produces the highest amount of biogas, followed by goat dung, chicken dung, fish waste, palm oil mill effluent and sewage sludge with total amount of 3508.9 mL, 2141 mL, 1885.7 mL, 1546.0 mL, 743.8 mL and 547.7 mL, respectively. No methane gas was produced from the substrates by using traditional bokashi. As a conclusion, by using industrial inoculum, all substrates can be used as feeders in producing energy in a small scale industry.

Keywords: Bio-methane Potential, biogas production, inoculum, bokashi, Malaysia
Important Date
  • Conference Date

    Aug 26

    2016

    to

    Aug 28

    2016

  • Jun 15 2016

    Abstract Submission Deadline

  • Jun 25 2016

    Draft paper submission deadline

  • Jun 30 2016

    Draft Paper Acceptance Notification

  • Jul 10 2016

    Final Paper Deadline

  • Aug 28 2016

    Registration deadline

Sponsored By
The International Water, Air and Soil Conservation society
Supported By
Nankai University
Malaya University
Universiti Kebangsaan Malaysia
University Putra Malaysia
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