Properties Evaluation and Computational Analysis of Gasifier Chamber Unit Using Agricultural Waste

Authors

  • Nurol Najiha Mohd Huridin School of Mechanical Engineering, Faculty of Engineering Universiti Teknologi Malaysia 81310 UTM Johor Bahru Johor
  • Norazila Othman School of Mechanical Engineering, Faculty of Engineering Universiti Teknologi Malaysia 81310 UTM Johor Bahru Johor
  • Mohammad Nazri Mohd Jaafar School of Mechanical Engineering, Faculty of Engineering Universiti Teknologi Malaysia 81310 UTM Johor Bahru Johor
  • Mastura Ab. Wahid School of Mechanical Engineering, Faculty of Engineering Universiti Teknologi Malaysia 81310 UTM Johor Bahru Johor

Keywords:

Biomass, gasifier unit, computational fluid dynamics (CFD), flow characteristics

Abstract

Malaysia is projected to produce 16.8 billion tonnes of biomass annually, thereby leading to the accumulation of agricultural waste in great abundance Thus, the country is indeed facing a big challenge related to handling and disposing of these wastes. As the world is moving towards a greener earth, the act of dumping the waste in landfills or resorting it to open burning seems irresponsible and looks as if the nation is left with no sustainable choice or option to overcome the problem. Nevertheless, the nation must be proactive and need to respond positively to avoid or minimize the predicament. The process of gasification could help to address the matter, for instance, taking the palm kernel shell as feedstock, turning it into synthesis gas (syngas). This is one of the alternative solutions that could be used as an alternative fuel that will benefit the nation. The objective of this study is to establish the fuel properties of the syngas database using a proximate analysis method and also to determine the fluid flow in a gasifier chamber unit of the gasification system via a computational approach (numerical simulation). Computational fluid dynamic (CFD) simulation was carried out using the ANSYS Fluent software, taking into account different swirler angles (30º, 40º and 50º) to observe the effect of using the swirler in the chamber unit. Five agricultural wastes were utilized as samples, namely, the palm kernel shell (PKS), ground coconut shell (GCS), torrefied rubber seed (TRS), empty fruit bunch (EFB) and wood chips (WC), each of which obtained a specific high heating value (HHV) as a fuel property of 18.53, 18.00, 17.94, 18.37 and 17.39 MJ/kg, respectively. From the computational analysis, the CFD simulation is capable to determine the flow characteristics in the gasifier chamber unit. A swirler angle of 40° appeared as ideal to be implemented in the gasifier chamber unit since it produced better results in terms of the gasification residuals and static temperature distribution.

References

Abdullah N. and Sulaiman F., 2013. The Oil Palm Wastes in Malaysia (Chapter 3), In Matovic M.D. (Ed.), Biomass Now - Sustainable Growth and Use, IntechOpen, 76-100.

Kavitha B., Jothimani P. and Rajannan G., 2013. Empty Fruit Brunch - A Potential Organic Manure for Agriculture, International Journal of Science, Environment and Technology, 2(5): 930–937.

Abdullah W.S.W., Osman M., Kadir M.Z.A.A. and Verayiah R., 2019. The Potential and Status of Renewable Energy Development in Malaysia, Energies, 12(12): 2437–2447.

Breault R.W., 2010. Gasification Processes Old and New: A Basic Review of the Major Technologies, Energies, 3(2): 216–240.

Molino A., Chianese S. and Musmarra D., 2016. Biomass Gasification Technology: The State of the Art Overview, Journal of Energy Chemistry, 25(1): 10–25.

Nemanova V., Nordgreen T., Engvall K. and Sjöström K., 2011. Biomass Gasification in an Atmospheric Fluidised Bed: Tar Reduction with Experimental Iron-based Granules from Höganäs AB, Sweden, Catalysis Today, 176(1): 253–257.

Härting H., 2017. Characterization of an Inclined Rotating Tubular Fixed Bed Reactor, Dresden, PhD Thesis, Institute of Process Engineering and Environment Technology.

Antonopoulos I., Karagiannidis A., Gkouletsos A. and Perkoulidis G., 2012. Modelling of a Downdraft Gasifier Fed by Agricultural Residues, Waste Management, 32(4): 710–718.

Simanungkalit S.P., 2013. Numerical Simulation of Gasification Process for Palm Empty Fruit Bunch Waste, Jurnal Ketenagalistrikan dan Energi Terbarukan, 12(1): 11–20.

Basu P., 2018. Biomass Gasification, Pyrolysis, and Torrefaction: Practical Design and Theory, 3rd Edition, Elsevier Academic Press, London, United Kingdom.

Sukumaran R., Stöcker M., Bhaskar T. and Pandey A., 2015. Recent Advances in Thermo-Chemical Conversion of Biomass, Elsevier Publisher.

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Published

2020-12-19

How to Cite

Mohd Huridin, N. N., Othman, N., Mohd Jaafar, M. N., & Ab. Wahid, M. (2020). Properties Evaluation and Computational Analysis of Gasifier Chamber Unit Using Agricultural Waste. Jurnal Mekanikal, 43(2). Retrieved from https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/415

Issue

Section

Mechanical

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