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Chemical Analysis of Different Parts of Date Palm ( Phoenix dactylifera L.) Using Ultimate, Proximate and Thermo-Gravimetric Techniques for Energy Production

Author

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  • Ramadan A. Nasser

    (Plant Production Department, Food and Agricultural Sciences College, King Saud University, Riyadh 11451, Saudi Arabia
    Forestry and Wood Technology Department, Faculty of Agriculture (El-Shatby), Alexandria University, Alexandria 2154, Egypt)

  • Mohamed Z. M. Salem

    (Forestry and Wood Technology Department, Faculty of Agriculture (El-Shatby), Alexandria University, Alexandria 2154, Egypt)

  • Salim Hiziroglu

    (Department of Natural Resource Ecology and Management, Oklahoma State University, Stillwater, OK 74078, USA)

  • Hamad A. Al-Mefarrej

    (Plant Production Department, Food and Agricultural Sciences College, King Saud University, Riyadh 11451, Saudi Arabia)

  • Ahmed S. Mohareb

    (Forestry and Wood Technology Department, Faculty of Agriculture (El-Shatby), Alexandria University, Alexandria 2154, Egypt
    College of Science, Dammam University, Dammam 31433, Saudi Arabia)

  • Manawwer Alam

    (Research Center, College of Science, King Saud University, Riyadh 11451, Saudi Arabia)

  • Ibrahim M. Aref

    (Plant Production Department, Food and Agricultural Sciences College, King Saud University, Riyadh 11451, Saudi Arabia)

Abstract

The objective of the study was to analyze chemical structure of date palm ( Phoenix dactylifera L.) by employing ultimate, proximate and thermo-gravimetric techniques. Samples from different anatomical parts of date palm, namely trunk, frond base, frond midrib, leaflets, coir, fruit stem, date stone, and fruit empty bunches were considered for the experiments. Based on the findings in this work palm leaflet samples gave the highest amount of extractives content (32.9%), followed by date palm stone specimens with 31.5%. Cellulose content values of 32.8% and 47.5% were obtained for date palm stone and palm coir samples, respectively. Overall the hemicellulose contents of all samples were relatively similar to those of typical wood or non-wood lignocellulosic materials with the two exceptions of palm coir and palm leaflets. Both palm coir and palm leaflet specimens had 12.6% and 16.1% hemicellulose content. Volatile matter values of 74.3% and 87.5% were determined for leaflets and fruit empty bunch samples. The ash content of the samples ranged from 1.4% for date stone to 15.2% for palm leaflet samples. The thermal decomposition was completed below a temperature of 500 °C with an exception of those samples taken from palm leaflets. Taken together the data indicate that date palm stone and palm coir revealed could be more viable for renewable energy production than the other specimens considered in this work.

Suggested Citation

  • Ramadan A. Nasser & Mohamed Z. M. Salem & Salim Hiziroglu & Hamad A. Al-Mefarrej & Ahmed S. Mohareb & Manawwer Alam & Ibrahim M. Aref, 2016. "Chemical Analysis of Different Parts of Date Palm ( Phoenix dactylifera L.) Using Ultimate, Proximate and Thermo-Gravimetric Techniques for Energy Production," Energies, MDPI, vol. 9(5), pages 1-14, May.
    • Handle: RePEc:gam:jeners:v:9:y:2016:i:5:p:374-:d:70155
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    References listed on IDEAS

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    1. Said S. Hegazy & Khaled Ahmed, 2015. "Effect of Date Palm Cultivar, Particle Size, Panel Density and Hot Water Extraction on Particleboards Manufactured from Date Palm Fronds," Agriculture, MDPI, vol. 5(2), pages 1-19, May.
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    1. Musa Adamu & Fayez Alanazi & Yasser E. Ibrahim & Hani Alanazi & Veerendrakumar C. Khed, 2022. "A Comprehensive Review on Sustainable Natural Fiber in Cementitious Composites: The Date Palm Fiber Case," Sustainability, MDPI, vol. 14(11), pages 1-31, May.
    2. Fahad Alkoaik & Abdulelah Al-Faraj & Ibrahim Al-Helal & Ronnel Fulleros & Mansour Ibrahim & Ahmed M. Abdel-Ghany, 2019. "Toward Sustainability in Rural Areas: Composting Palm Tree Residues in Rotating Bioreactors," Sustainability, MDPI, vol. 12(1), pages 1-11, December.
    3. Shokrollahi, Simin & Denayer, Joeri F.M. & Karimi, Keikhosro, 2023. "Efficient bioenergy recovery from different date palm industrial wastes," Energy, Elsevier, vol. 272(C).
    4. Makkawi, Yassir & El Sayed, Yehya & Salih, Mubarak & Nancarrow, Paul & Banks, Scott & Bridgwater, Tony, 2019. "Fast pyrolysis of date palm (Phoenix dactylifera) waste in a bubbling fluidized bed reactor," Renewable Energy, Elsevier, vol. 143(C), pages 719-730.
    5. Saviour A. Umoren & Moses M. Solomon & Ime B. Obot & Rami K. Suleiman, 2021. "Effect of Intensifier Additives on the Performance of Butanolic Extract of Date Palm Leaves against the Corrosion of API 5L X60 Carbon Steel in 15 wt.% HCl Solution," Sustainability, MDPI, vol. 13(10), pages 1-22, May.
    6. Elnajjar, E. & Al-Zuhair, S. & Hasan, S. & Almardeai, S. & Al Omari, S.A.B. & Hilal-Alnaqbi, A., 2020. "Morphology characterization and chemical composition of United Arab Emirates date seeds and their potential for energy production," Energy, Elsevier, vol. 213(C).
    7. Tom Haeldermans & Jeamichel Puente Torres & Willem Vercruysse & Robert Carleer & Pieter Samyn & Dries Vandamme & Jan Yperman & Ann Cuypers & Kenny Vanreppelen & Sonja Schreurs, 2023. "An Experimentally Validated Selection Protocol for Biochar as a Sustainable Component in Green Roofs," Waste, MDPI, vol. 1(1), pages 1-19, January.

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