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Gasification and Power Generation Characteristics of Rice Husk, Sawdust, and Coconut Shell Using a Fixed-Bed Downdraft Gasifier

Author

Listed:
  • Md. Emdadul Hoque

    (Department of Mechanical Engineering, Rajshahi University of Engineering & Technology, Rajshahi 6204, Bangladesh)

  • Fazlur Rashid

    (Department of Mechanical Engineering, Rajshahi University of Engineering & Technology, Rajshahi 6204, Bangladesh)

  • Muhammad Aziz

    (Institute of Industrial Science, The University of Tokyo, 4-6-1 Komaba, Meguro-Ku, Tokyo 153-8505, Japan)

Abstract

Synthetic gas generated from the gasification of biomass feedstocks is one of the clean and sustainable energy sources. In this work, a fixed-bed downdraft gasifier was used to perform the gasification on a lab-scale of rice husk, sawdust, and coconut shell. The aim of this work is to find and compare the synthetic gas generation characteristics and prospects of sawdust and coconut shell with rice husk. A temperature range of 650–900 °C was used to conduct gasification of these three biomass feedstocks. The feed rate of rice husk, sawdust, and coconut shell was 3–5 kg/h, while the airflow rate was 2–3 m 3 /h. Experimental results show that the highest generated quantity of methane (vol.%) in synthetic gas was achieved by using coconut shell than sawdust and rice husk. It also shows that hydrogen production was higher in the gasification of coconut shell than sawdust and rice husk. In addition, emission generations in coconut shell gasification are lower than rice husk although emissions of rice husk gasification are even lower than fossil fuel. Rice husk, sawdust, and coconut shell are cost-effective biomass sources in Bangladesh. Therefore, the outcomes of this paper can be used to provide clean and economic energy sources for the near future.

Suggested Citation

  • Md. Emdadul Hoque & Fazlur Rashid & Muhammad Aziz, 2021. "Gasification and Power Generation Characteristics of Rice Husk, Sawdust, and Coconut Shell Using a Fixed-Bed Downdraft Gasifier," Sustainability, MDPI, vol. 13(4), pages 1-18, February.
    • Handle: RePEc:gam:jsusta:v:13:y:2021:i:4:p:2027-:d:498817
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    2. Ghulamullah Maitlo & Imran Ali & Kashif Hussain Mangi & Safdar Ali & Hubdar Ali Maitlo & Imran Nazir Unar & Abdul Majeed Pirzada, 2022. "Thermochemical Conversion of Biomass for Syngas Production: Current Status and Future Trends," Sustainability, MDPI, vol. 14(5), pages 1-30, February.
    3. Verma, Shivpal & Dregulo, Andrei Mikhailovich & Kumar, Vinay & Bhargava, Preeti Chaturvedi & Khan, Nawaz & Singh, Anuradha & Sun, Xinwei & Sindhu, Raveendran & Binod, Parameswaran & Zhang, Zengqiang &, 2023. "Reaction engineering during biomass gasification and conversion to energy," Energy, Elsevier, vol. 266(C).
    4. Qiu, Jianhua & Wu, Fujun & Chen, Fangzhou & Huang, Weijia & Cai, Yezheng & Jiang, Juantao, 2022. "Entire process simulation and thermodynamic analysis of the catalytic gasification for synthetic natural gas from biomass," Energy, Elsevier, vol. 255(C).
    5. Sivabalan Kaniapan & Jagadeesh Pasupuleti & Kartikeyan Patma Nesan & Haris Nalakath Abubackar & Hadiza Aminu Umar & Temidayo Lekan Oladosu & Segun R. Bello & Eldon R. Rene, 2022. "A Review of the Sustainable Utilization of Rice Residues for Bioenergy Conversion Using Different Valorization Techniques, Their Challenges, and Techno-Economic Assessment," IJERPH, MDPI, vol. 19(6), pages 1-30, March.
    6. Fazlur Rashid & Md. Emdadul Hoque & Muhammad Aziz & Talukdar Nazmus Sakib & Md. Tariqul Islam & Raihan Moker Robin, 2021. "Investigation of Optimal Hybrid Energy Systems Using Available Energy Sources in a Rural Area of Bangladesh," Energies, MDPI, vol. 14(18), pages 1-24, September.
    7. Imtiaz Anando, Ahmed & Ehsan, M Monjurul & Karim, Md Rezwanul & Bhuiyan, Arafat A. & Ahiduzzaman, Md & Karim, Azharul, 2023. "Thermochemical pretreatments to improve the fuel properties of rice husk: A review," Renewable Energy, Elsevier, vol. 215(C).

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