Biomass energy potential of coconut varieties in Guyana

  • Bibi Abrahim National Agricultural Research and Extension Institute
  • Oudho Homenauth National Agricultural Research and Extension Institute

Resumo

Guyana�??s growing coconut industry has great potential for the generation of renewable energy using its waste materials currently discarded unsustainably. This study sought to investigate the energy potential of husks and shells of three common coconut varieties grown in Guyana. In this experiment, samples of coconut husks and shells were subjected to proximate, ultimate and calorific analyses. These analyses indicated that the energy value of the husks and shells of tall and dwarf coconuts were high, confirming the findings presented in previous studies. It was found that coconut shells have a higher energy content as opposed to the husk, mainly due to the presence of lignin and cellulose and a lower moisture content. The shell of one of the dwarf varieties (firmer and thinner) produced the greatest energy output. The coconut husks, however, followed closely where the tall variety reported the greatest energy value. Based on the energy output of the waste materials, possible energy, power, carbon, diesel and price savings were determined, if energy conversion is to be implemented. The analyses show substantial benefits for the country with respect to waste management, carbon emissions and costs, indicating the need for energy generation from coconut waste. A proposed gasification-pyrolysis system was developed and provided a baseline for the use of coconut biomass for energy generation in Guyana.

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Biografia do Autor

Bibi Abrahim, National Agricultural Research and Extension Institute
Agriculture Road
Oudho Homenauth, National Agricultural Research and Extension Institute
Agriculture Road

Referências

Becker R, Quelroz TN, Santos F, Pereira MCT, Bohrer R, Dulllus J, Vllares M and Machado G (2016) Productivity potential and coconut waste quality for biorefining. Agronomy Science and Biotechnology 2(1): 11-20.

Carter MR (1993) Soil sampling and methods of analysis. Lewis Publishers, Boca Raton.

Global Petrol Prices (2018). Diesel Prices. https://www.globalpetrolprices.com/diesel_prices/. Acessed 23 apr. 2019.

Hoque MM and Bhattacharya SC (2001) Fuel characteristics of gasified coconut shell in a fluidized and spouted bed reactor. Energy 26(2001): 101-110.

Jekayinfa SO and Omisakin OS (2005) The energy potentials of some agricultural wastes as local fuel materials in Nigeria. Agriculture Engineering International: CIGR E-journal, 7:1-10.

Ministry of Agriculture (2018) Coconuts, Peppers, Eddoes and Limes among top exports for 2017. Ministry Administration, Guyana.

Pestano LDB and Jose WI (2016) Production of solid fuel by torrefaction using coconut leaves as renewable biomass. International journal or renewable energy development, 5(3): 187-197.

Raghavan K (2010). Biofuels from coconut. https://energypedia.info/images/f/f9/EN-Biofuels_from_Coconuts-Krishna_Raghavan.pdf. Acessed 10 set. 2019.

Tsai WT, Lee MK and Chang YM (2006) Fast pyrolysis of rice straw, sugarcane bagasse and coconut shell in an induction-heating reactor. Journal of analytical and applied pyrolysis 76(1-2): 230-237.

Publicado
2019-12-15
Como Citar
Abrahim, B., & Homenauth, O. (2019). Biomass energy potential of coconut varieties in Guyana. ASB Journal, 5(2), 97. https://doi.org/10.33158/ASB.2019v5i2p97
Seção
Artigos