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Review on hybrid energy systems for wastewater treatment and bio-energy production

Author

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  • Tee, Pei Fang
  • Abdullah, Mohammad Omar
  • Tan, Ivy Ai Wei
  • Rashid, Nur Khairunnisa Abdul
  • Amin, Mohamed Afizal Mohamed
  • Nolasco-Hipolito, Cirilo
  • Bujang, Kopli

Abstract

Access to clean water has been a great challenge around the globe due to the high pollutant contents in the water. Therefore, there is a high demand of freshwater resources or a dire need of clean recycle wastewater as a new source of water supply. In order to accomplish this, new concept or engineering systems need to be developed where hybrid wastewater treatment system can be an effective pollutants removal. Wastewater contains energy in the form of biodegradable organic matter. The concept of accomplishing wastewater treatment and generate energy simultaneously has been a trend recently and can be done with hybrid wastewater treatment system. Energy gained from such hybrid system is therefore both sustainable and environmental friendly which may be good source of bio-energy to compliment the power of a treatment plant. In this paper, we classify hybrid wastewater systems typically include physical–biological hybrid, physical–chemical hybrid, chemical–biological hybrid and physical–chemical–biological hybrid system. From the detailed literature gathered thus far, hybrid systems demonstrated some potential advantages compared to stand-alone systems such as: more stable and sustainable in the voltage generated, better overall treatment efficiency and energy savings.

Suggested Citation

  • Tee, Pei Fang & Abdullah, Mohammad Omar & Tan, Ivy Ai Wei & Rashid, Nur Khairunnisa Abdul & Amin, Mohamed Afizal Mohamed & Nolasco-Hipolito, Cirilo & Bujang, Kopli, 2016. "Review on hybrid energy systems for wastewater treatment and bio-energy production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 54(C), pages 235-246.
    • Handle: RePEc:eee:rensus:v:54:y:2016:i:c:p:235-246
    DOI: 10.1016/j.rser.2015.10.011
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    References listed on IDEAS

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    3. Hu, Jianjun & Zhang, Quanguo & Lee, Duu-Jong & Ngo, Huu Hao, 2018. "Feasible use of microbial fuel cells for pollution treatment," Renewable Energy, Elsevier, vol. 129(PB), pages 824-829.
    4. Melts, Indrek & Ivask, Mari & Geetha, Mohan & Takeuchi, Kazuhiko & Heinsoo, Katrin, 2019. "Combining bioenergy and nature conservation: An example in wetlands," Renewable and Sustainable Energy Reviews, Elsevier, vol. 111(C), pages 293-302.
    5. Ihsan Hamawand & Anas Ghadouani & Jochen Bundschuh & Sara Hamawand & Raed A. Al Juboori & Sayan Chakrabarty & Talal Yusaf, 2017. "A Critical Review on Processes and Energy Profile of the Australian Meat Processing Industry," Energies, MDPI, vol. 10(5), pages 1-29, May.
    6. He, Li & Du, Peng & Chen, Yizhong & Lu, Hongwei & Cheng, Xi & Chang, Bei & Wang, Zheng, 2017. "Advances in microbial fuel cells for wastewater treatment," Renewable and Sustainable Energy Reviews, Elsevier, vol. 71(C), pages 388-403.
    7. Shafaqat Ali & Zohaib Abbas & Muhammad Rizwan & Ihsan Elahi Zaheer & İlkay Yavaş & Aydın Ünay & Mohamed M. Abdel-DAIM & May Bin-Jumah & Mirza Hasanuzzaman & Dimitris Kalderis, 2020. "Application of Floating Aquatic Plants in Phytoremediation of Heavy Metals Polluted Water: A Review," Sustainability, MDPI, vol. 12(5), pages 1-33, March.
    8. Ahmed, Shams Forruque & Mofijur, M. & Islam, Nafisa & Parisa, Tahlil Ahmed & Rafa, Nazifa & Bokhari, Awais & Klemeš, Jiří Jaromír & Indra Mahlia, Teuku Meurah, 2022. "Insights into the development of microbial fuel cells for generating biohydrogen, bioelectricity, and treating wastewater," Energy, Elsevier, vol. 254(PA).

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