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A review on industrial scale anaerobic digestion systems deployment in Malaysia: Opportunities and challenges

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  • Kumaran, Palanisamy
  • Hephzibah, David
  • Sivasankari, Ranganathan
  • Saifuddin, Normanbay
  • Shamsuddin, Abd. Halim

Abstract

Depletion of fossil fuels and environment deterioration has led to extensive research and development activities to explore renewable energy such as biogas generation from anaerobic digestion of waste for power generation. Anaerobic digestion of waste to generate methane (CH4) has been proven to be a very promising alternative to waste disposal and a valuable technology for renewable energy recovery. Although anaerobic digestion is proven to be a feasible and economically viable technology for renewable energy generation of wastes in many developed countries like Germany, there are challenges in implementing this technology in Malaysia. This paper reviews the potential for biogas production from various waste water treatment and waste management industries in Malaysia and current state of anaerobic digester deployment in Malaysia. It also discusses on the benefits and barriers for anaerobic digestion technology deployment to harness the biogas energy potential to support the renewable energy target in Malaysia. The analysis has shown that anaerobic digestion technology deployment has the potential of 1694MW of electricity generation in 2014 and projected 22.35 TW.h of energy substitution potential by the year 2020. Hence, the analysis has shown that an active promotion and pursuant to anaerobic digestion deployment in Malaysia, a potential electricity generation capacity of 2135MW and emission avoidance potential of 11.35Mt of CO2 equivalent can be accomplished by the year 2020.

Suggested Citation

  • Kumaran, Palanisamy & Hephzibah, David & Sivasankari, Ranganathan & Saifuddin, Normanbay & Shamsuddin, Abd. Halim, 2016. "A review on industrial scale anaerobic digestion systems deployment in Malaysia: Opportunities and challenges," Renewable and Sustainable Energy Reviews, Elsevier, vol. 56(C), pages 929-940.
  • Handle: RePEc:eee:rensus:v:56:y:2016:i:c:p:929-940
    DOI: 10.1016/j.rser.2015.11.069
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    1. O'Connor, S. & Ehimen, E. & Pillai, S.C. & Black, A. & Tormey, D. & Bartlett, J., 2021. "Biogas production from small-scale anaerobic digestion plants on European farms," Renewable and Sustainable Energy Reviews, Elsevier, vol. 139(C).
    2. Abdul Aziz, Nur Izzah Hamna & Hanafiah, Marlia M. & Mohamed Ali, Mohamed Yasreen, 2019. "Sustainable biogas production from agrowaste and effluents – A promising step for small-scale industry income," Renewable Energy, Elsevier, vol. 132(C), pages 363-369.
    3. AM. Faizal & A. Amirah & Y. H. Tan, 2018. "Energy, Economic And Environmental Impact Of Waste-To-Energy In Malaysia," Journal of Mechanical Engineering Research & Developments (JMERD), Zibeline International Publishing, vol. 41(3), pages 97-101, September.
    4. Jun Sheng Teh & Yew Heng Teoh & Heoy Geok How & Thanh Danh Le & Yeoh Jun Jie Jason & Huu Tho Nguyen & Dong Lin Loo, 2021. "The Potential of Sustainable Biomass Producer Gas as a Waste-to-Energy Alternative in Malaysia," Sustainability, MDPI, vol. 13(7), pages 1-31, April.
    5. Khan, Mohd Atiqueuzzaman & Ngo, Huu Hao & Guo, Wenshan & Liu, Yiwen & Zhang, Xinbo & Guo, Jianbo & Chang, Soon Woong & Nguyen, Dinh Duc & Wang, Jie, 2018. "Biohydrogen production from anaerobic digestion and its potential as renewable energy," Renewable Energy, Elsevier, vol. 129(PB), pages 754-768.
    6. repec:zib:zjmerd:3jmerd2018-97-101 is not listed on IDEAS
    7. Okoro-Shekwaga, Cynthia Kusin & Ross, Andrew Barry & Camargo-Valero, Miller Alonso, 2019. "Improving the biomethane yield from food waste by boosting hydrogenotrophic methanogenesis," Applied Energy, Elsevier, vol. 254(C).
    8. Bedoić, Robert & Špehar, Ana & Puljko, Josip & Čuček, Lidija & Ćosić, Boris & Pukšec, Tomislav & Duić, Neven, 2020. "Opportunities and challenges: Experimental and kinetic analysis of anaerobic co-digestion of food waste and rendering industry streams for biogas production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 130(C).
    9. Zain, Munirah Md & Mohamed, Abdul Rahman, 2018. "An overview on conversion technologies to produce value added products from CH4 and CO2 as major biogas constituents," Renewable and Sustainable Energy Reviews, Elsevier, vol. 98(C), pages 56-63.
    10. Tavera-Ruiz, C. & Martí-Herrero, J. & Mendieta, O. & Jaimes-Estévez, J. & Gauthier-Maradei, P. & Azimov, U. & Escalante, H. & Castro, L., 2023. "Current understanding and perspectives on anaerobic digestion in developing countries: Colombia case study," Renewable and Sustainable Energy Reviews, Elsevier, vol. 173(C).
    11. A Aziz, Md Maniruzzaman & Kassim, Khairul Anuar & ElSergany, Moetaz & Anuar, Syed & Jorat, M. Ehsan & Yaacob, H. & Ahsan, Amimul & Imteaz, Monzur A. & Arifuzzaman,, 2020. "Recent advances on palm oil mill effluent (POME) pretreatment and anaerobic reactor for sustainable biogas production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 119(C).
    12. Woon, Kok Sin & Phuang, Zhen Xin & Lin, Zuchao & Lee, Chew Tin, 2021. "A novel food waste management framework combining optical sorting system and anaerobic digestion: A case study in Malaysia," Energy, Elsevier, vol. 232(C).
    13. Rajaeifar, Mohammad Ali & Ghanavati, Hossein & Dashti, Behrouz B. & Heijungs, Reinout & Aghbashlo, Mortaza & Tabatabaei, Meisam, 2017. "Electricity generation and GHG emission reduction potentials through different municipal solid waste management technologies: A comparative review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 79(C), pages 414-439.
    14. Elizabeth Dickinson & Mark Harrison & Marc Parker & Michael Dickinson & James Donarski & Adrian Charlton & Rosie Nolan & Aida Rafat & Florence Gschwend & Jason Hallett & Maureen Wakefield & Julie Wils, 2019. "From waste to food: Optimising the breakdown of oil palm waste to provide substrate for insects farmed as animal feed," PLOS ONE, Public Library of Science, vol. 14(11), pages 1-22, November.

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