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Experimental Analysis of Four Agricultural Biomass Fuel (Wood Charcoal, Maize Straws, Palm Kernel Sawdust and Rice Husks) Subjected to Fixed Bed Gasification Process

Received: 20 October 2022     Accepted: 16 November 2022     Published: 13 January 2023
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Abstract

The production of syngas from gasification is a heathy way to convert agricultural residues into energy. In fact the gasification characteristics, konwn as the temperature and the plasma duration, were assessed. The gasification process consisted in introducing into a designed updraft gasifier four types of biomass (maize, rice husks, charcoal and kernel palm) of a well known quantity (2, 4, 6, 8, and 10 kgs). The biomass choice was done because of their abundance and they can assure the renewal of resources in an industrial project setting. Air used as a gasifying agent, was introduced in the gasifier through a control valve. Air supply in the gas producer to favor the biomass conversion was done using a fan of 12 Volts turned by photovoltaic solar panels of 100 W each. The main results of this study were as follows. Whatever the quantity of biomass used, the highest gasification temperature was recorded with the charcoal followed by the palm kernel. The plasma or flame duration was the highest during the gasification of 10 kgs of charcoal followed by the palm kernel. The palm kernel and the maize straws are more advisable for the gasification purpose in rural areas of Cameroon.

Published in Science Journal of Energy Engineering (Volume 10, Issue 4)
DOI 10.11648/j.sjee.20221004.11
Page(s) 35-39
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2023. Published by Science Publishing Group

Keywords

Gasification, Syngas, Plasma, Agricultural Biomass, Fixed Bed Gasifier, Calorific Value

References
[1] Somya M.; Upadyay kumar R. 2021: Review on biomass gasification: gasifiers, gasifying mediums, and operational parameters. Materials Science for Energy Technologies. Vol 4, pp 329-340. https://doi.org/10.1016/j.mset.2021.08.009
[2] Tangka, J., K., Ketuma, C., T., Ajaga, N., Viyoi, C., T., 2016. Modelling of the Operation of a Small Generator Set Powered by Scrubbed Biogas from Cow Dung. British Journal of Applied Science & Technology. 14 (1): 1-8.
[3] Berndes, G., Hoogwijk, M., et van den Broek, R., The contribution of biomass in the future global energy supply: a review of 17 studies. Biomass and Bioenergy, 2003. 25 (1): p. 1-28.
[4] Nsah-ko Tchoumboué., Tangka, J. K., Njila, R., Djoussé Kanouo, B. M., Sogang Signing, H. B., Womeni, H., Ndomou, S. C. 2018: Oil production and energy input from extraction of Jatropha curcas L.: Effect of seeds form, preheating temperature and applied pressure. The International Journal of Engineering and Science (IJES). Volume 7, Issue 8, PP 69-75.
[5] Tchouate H., Pépin M., 2003. Renewable Energy Contribution to of electric sustainable Development: Cameroon case study, Doctoral Thesis, University of Louvain, Belgium 83p.
[6] Xu, Donald J., Byambajav, E., Ohtsuka, Y. 2010: Recent advances in catalysts for hot gas removal of tar and NH3 from biomass gasification. Fuel, 89 (8), pp. 1784-1795.
[7] Chauvin A., Faraud V., 2008. Simulation of wood gasification and experimental study in a 10 kWel pilot gasifier internship report, Marseille polytechnic school. 8-74p.
[8] Ren, J., Cao, J. P., Yang, F. L., Wei, X. Y., 2019: Recent advances in syngas production from biomass catalytic gasification: A critical review on reactor, catalysts, catalytic mechanisms and mathematical models. Renewable sustainable Energy Review., 116. P. 109426. http://10.1016/j.rser.2019.109426
[9] Meng, X., De Yong, W., Fu, N., Verkooijen, A. H. M. 2011: Biomass gasification in a 100 kWth Steam-oxygen blown circulating fluidized bed gasifier: Effects of operational conditions on product gas distribution and tar formation. Biomass bioenergy, 35 (7), PP. 2910-2924. http://10.1016/j.biombioe.2011. 03.028
[10] McCaffrey, P., Thy, P., Oliveira M., Wang, L., Torres, L., Aktas, T., Chiou, B. S., Orts, W., Jenkings, B. M., 2019: Air and Steam gasification of almond biomass. Frontiere Energy Resource., volume 7, p. 84. http://10.3389/fenrg.2019.00084
[11] Molino, A., Larocca, V., Chianese, S., Musmarra, D., 2018: Biofuels production by biomass gasification: A review. Energies, 11 (4) (2018), p. 811, http://10.3390/en.11040811
[12] Madadien, E., Orsat, V., Lefsrud, M., 2017: Comparative study of temperature impact on air gasification of various types of biomasses in research scale downdraft reactor. Energy Fuels, 31 (4), (2017), pp. 4045-4053. http://10.1021/acs.energyfuels,6b034
[13] Teixeira, G., 2012. Gazeification de charbon de granules de bois: comportement thermochimique et mecanique d'un lit fixe continu. 2012, Institut National Polytechnique de Toulouse (France), 2012.
[14] Wongsiriamnuay, T., Kannang, N., Tippayawong, N., 2013: Effect of operating conditions on catalytic gasification of bamboo in a fluidized bed. International Journal of Chemical Engineering., 2013, pp1-9.
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  • APA Style

    Nsah-ko Tchoumboue. (2023). Experimental Analysis of Four Agricultural Biomass Fuel (Wood Charcoal, Maize Straws, Palm Kernel Sawdust and Rice Husks) Subjected to Fixed Bed Gasification Process. Science Journal of Energy Engineering, 10(4), 35-39. https://doi.org/10.11648/j.sjee.20221004.11

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    ACS Style

    Nsah-ko Tchoumboue. Experimental Analysis of Four Agricultural Biomass Fuel (Wood Charcoal, Maize Straws, Palm Kernel Sawdust and Rice Husks) Subjected to Fixed Bed Gasification Process. Sci. J. Energy Eng. 2023, 10(4), 35-39. doi: 10.11648/j.sjee.20221004.11

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    AMA Style

    Nsah-ko Tchoumboue. Experimental Analysis of Four Agricultural Biomass Fuel (Wood Charcoal, Maize Straws, Palm Kernel Sawdust and Rice Husks) Subjected to Fixed Bed Gasification Process. Sci J Energy Eng. 2023;10(4):35-39. doi: 10.11648/j.sjee.20221004.11

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  • @article{10.11648/j.sjee.20221004.11,
      author = {Nsah-ko Tchoumboue},
      title = {Experimental Analysis of Four Agricultural Biomass Fuel (Wood Charcoal, Maize Straws, Palm Kernel Sawdust and Rice Husks) Subjected to Fixed Bed Gasification Process},
      journal = {Science Journal of Energy Engineering},
      volume = {10},
      number = {4},
      pages = {35-39},
      doi = {10.11648/j.sjee.20221004.11},
      url = {https://doi.org/10.11648/j.sjee.20221004.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.sjee.20221004.11},
      abstract = {The production of syngas from gasification is a heathy way to convert agricultural residues into energy. In fact the gasification characteristics, konwn as the temperature and the plasma duration, were assessed. The gasification process consisted in introducing into a designed updraft gasifier four types of biomass (maize, rice husks, charcoal and kernel palm) of a well known quantity (2, 4, 6, 8, and 10 kgs). The biomass choice was done because of their abundance and they can assure the renewal of resources in an industrial project setting. Air used as a gasifying agent, was introduced in the gasifier through a control valve. Air supply in the gas producer to favor the biomass conversion was done using a fan of 12 Volts turned by photovoltaic solar panels of 100 W each. The main results of this study were as follows. Whatever the quantity of biomass used, the highest gasification temperature was recorded with the charcoal followed by the palm kernel. The plasma or flame duration was the highest during the gasification of 10 kgs of charcoal followed by the palm kernel. The palm kernel and the maize straws are more advisable for the gasification purpose in rural areas of Cameroon.},
     year = {2023}
    }
    

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    T1  - Experimental Analysis of Four Agricultural Biomass Fuel (Wood Charcoal, Maize Straws, Palm Kernel Sawdust and Rice Husks) Subjected to Fixed Bed Gasification Process
    AU  - Nsah-ko Tchoumboue
    Y1  - 2023/01/13
    PY  - 2023
    N1  - https://doi.org/10.11648/j.sjee.20221004.11
    DO  - 10.11648/j.sjee.20221004.11
    T2  - Science Journal of Energy Engineering
    JF  - Science Journal of Energy Engineering
    JO  - Science Journal of Energy Engineering
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    PB  - Science Publishing Group
    SN  - 2376-8126
    UR  - https://doi.org/10.11648/j.sjee.20221004.11
    AB  - The production of syngas from gasification is a heathy way to convert agricultural residues into energy. In fact the gasification characteristics, konwn as the temperature and the plasma duration, were assessed. The gasification process consisted in introducing into a designed updraft gasifier four types of biomass (maize, rice husks, charcoal and kernel palm) of a well known quantity (2, 4, 6, 8, and 10 kgs). The biomass choice was done because of their abundance and they can assure the renewal of resources in an industrial project setting. Air used as a gasifying agent, was introduced in the gasifier through a control valve. Air supply in the gas producer to favor the biomass conversion was done using a fan of 12 Volts turned by photovoltaic solar panels of 100 W each. The main results of this study were as follows. Whatever the quantity of biomass used, the highest gasification temperature was recorded with the charcoal followed by the palm kernel. The plasma or flame duration was the highest during the gasification of 10 kgs of charcoal followed by the palm kernel. The palm kernel and the maize straws are more advisable for the gasification purpose in rural areas of Cameroon.
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    ER  - 

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Author Information
  • Mechanical Engineering Department, College of Technology, University of Buea, Buea, Cameroon

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