MICROWAVE PYROLYSIS OF OIL PALM FIBRES

Authors

  • Arshad Adam Salema Department of Thermodynamics and Fluid Mechanics, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 Johor Bahru, Johor, Malaysia.
  • Farid Nasir Ani Department of Thermodynamics and Fluid Mechanics, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 Johor Bahru, Johor, Malaysia.

Keywords:

Fast pyrolysis, biomass, microwave heating, oil palm fibres, bio-oil.

Abstract

Malaysia and Indonesia are generating millions of ton of oil palm fibres (OPF) from their oil palm mills as biomass solid wastes which needs proper waste utilization application. The main purpose of the present research was to pyrolyse the OPF biomass into bio-oil using microwave irradiation technique. A domestic microwave of 1000 W and 2.45 GHz frequency was modified to accommodate fluidized bed system. It was found that OPF showed poor microwave absorbing characteristics. Therefore, an appropriate microwave-absorbing material such as biomass char was added to initiate the pyrolysis process. Temperature profiles and bio-oil yield was investigated by varying the ratio of OPF to microwave absorber. It was found that the yield of bio-oil depended on the ratio of OPF to microwave absorber. Particular attention on the temperature profiles was also taken into account during microwave heating of OPF. It can be concluded that microwave technique can save significant time and energy through its rapid and volumetric heating characteristics.

References

Budarin VL, Clark JH, Lanigan BA, Shuttleworth P, Breeden SW, Wilson AJ, Macquarrie DJ, Milkowski K, Jones J, Bridgeman T, Ross A, 2009, The preparation of high-grade bio-oils through the controlled, low temperature microwave activation of wheat straw, Bioresource Technology, 100: 6064-6068.

Ludlow-Palafox, C., and Chase, H.A., Microwave-Induced pyrolysis of plastic wastes, 2001, Industrial and Engineering Chemistry Research, 40, 4749-4756.

Domínguez, A., Fernández, Y., Fidalgo, B., Pis, J.J., and Menéndez, J.A., 2008, Bio-syn gas production with low concentrations of CO2 and CH4 from microwave-induced pyrolysis of wet and dried sewage sludge, Chemosphere, 70, 397-403.

Yu, F., Deng, S., Chen, P., Liu, Y., Wan, Y., Olson, A., Kittelson, D., and Ruan, R., 2007, Physical and chemical properties of bio-oils from microwave pyrolysis of corn stover, Applied Biochemistry and Biotechnology, 136-140, 957-970.

Huang, Y.F., Kuan, W.H., Lo, S.L., and Lin, C.F., 2008, Total recovery of resources and energy from rice straw using microwave-induced pyrolysis, Bioresource Technology, 99, 8252-8258.

Guo, X., Zheng, Y., and Zhou, B., 2008, Influence of absorption medium on microwave pyrolysis of fir sawdust, In Second International Conference on Bioinformatics and Biomedical Engineering, pp. 798-800, Shanghai, China. May 16-18.

Wan, Y., Chen, P., Zhang, B., Yang, C., Liu, Y., Lin, X., and Ruan, R., 2009, Microwave-assisted pyrolysis of biomass: Catalyst to improve product selectivity, Journal of Analytical and Applied Pyrolysis, 86, 161-167.

Miura, M., Kaga, H., Sakurai, A., Kakuchi, T., Takahashi, K., 2004, Rapid pyrolysis of wood block by microwave heating, Journal of Analytical and Applied Pyrolysis, 71, 187-199.

Appleton TJ, Colder RI, Kingman SW, Lowndes IS, and Read AG, 2005, Microwave technology for energy-efficient processing of waste, Applied Energy, 81: 85-113.

Jones DA, Lelyveld TP, Mavrofidis SD, Kingman SW, and Miles NJ, 2002, Microwave heating applications in environmental engineering – A review, Resources, Conversion and Recycling, 34: 75-90.

Farid Nasir Ani, Lim Xin Yi, and Arshad Adam Salema. Continuous Fast Pyrolysis of Oil Palm Solid Wastes for Bio-Oil Production, 2008, In Proceeding of 5th International Conference on Combustion, Incineration, Pyrolysis and Emission Control, 16- 19 December, Chiang Mai, Thailand.

Bridgwater, A.V., Peacocke, G.V.C., 2000, Fast pyrolysis processes for biomass. Renewable and Sustainable Energy Reviews, 4: 1-73.

Domínguez, A., Menéndez, J.A., Fernández, Y., Pis, J.J., Valente Nabais, J.M., Carrott, P.J.M., Ribeiro Carrott, M.M.L., 2007, Conventional and microwave induced pyrolysis of coffee hulls for the production of a hydrogen rich fuel gas, Journal of Analytical and Applied Pyrolysis, 79, 128-135.

Chen MQ, Wang J, Zhang MX, Chen MG, Zhu XF, Min FF, Tan ZC, 2008, Catalytic effects of eight inorganics additives on pyrolysis of pine wood sawdust by microwave heating, Journal of Analytical and Applied Pyrolysis, 82: 145-150.

Guo, J., and Lua, A.C., 2000, Kinetic study on pyrolysis of extracted oil palm fiber. Journal of Thermal Analysis and Calorimetry, 59, 763-774.

Husain Z, Zainac Z, and Abdullah Z, 2002, Briquetting of palm fiber and shell from the processing of palm nuts to palm oil, Biomass and Bioenergy, 22(6): 505-509.

Ani F.N. 2009, Prospects of utilizing research and developments on biomass pyrolysis in Malaysia. In Proceeding of Seminar on Biomass for Biofuel and Value-Added Products, 27-28 October, Kuala Lumpur.

Stenseng, M., Jensen, A., and Dam-Johansen, K. 2001, Investigations of biomass pyrolysis by thermogravimetric analysis and differential scanning calorimetry. Journal of Analytical and Applied Pyrolysis 58-59, 765-780.

Guo, J., and Lua, A.C., 2000, Preparation of activated carbons from oilpalm-stone chars by microwave induced carbon dioxide activation, Carbon, 38, 1985-1993.

El Harfi, K., Mokhlisse, A., Chanâa, M.B., and Outzourhit, A., 2000, Pyrolysis of the Moroccan oil shales under microwave radiation, Fuel, 79, 733-742.

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Published

2018-04-04

How to Cite

Salema, A. A., & Ani, F. N. (2018). MICROWAVE PYROLYSIS OF OIL PALM FIBRES. Jurnal Mekanikal, 30(1). Retrieved from https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/113

Issue

Section

Mechanical

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