Potential of functionalised cellulose from oil palm biomass as nitrogen and phosphorus-based nutrient adsorbent - a review


Citation

Goto Masafumi, . and Tan Lian See, . and Sumathi Sethupathi, . and Chong Mei Mei, . and Nurfatehah Wahyuny Che Jusoh, . Potential of functionalised cellulose from oil palm biomass as nitrogen and phosphorus-based nutrient adsorbent - a review. pp. 387-399. ISSN 2811-4701

Abstract

By the year 2020 oil palm biomass in Malaysia is projected to reach between 85 to 110 million tonnes per year. Instead of disposing off such a massive amount of biomass as waste the oil palm biomass could be converted into value-added products. Since lignocellulosic materials could be a suitable adsorbent for nitrogen and phosphorus-based nutrients from aquaculture effluent based on studies conducted by other countries it would be an excellent opportunity to monetise oil palm biomass for a similar purpose as well. There are many well-established extraction methods introduced by researchers. However only a handful of the extraction method involved the use of green chemicals. This article provides a review of the extraction and modification for oil palm biomass towards becoming a potential adsorbent for nitrogen and phosphorusbased nutrients.


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Abstract

By the year 2020 oil palm biomass in Malaysia is projected to reach between 85 to 110 million tonnes per year. Instead of disposing off such a massive amount of biomass as waste the oil palm biomass could be converted into value-added products. Since lignocellulosic materials could be a suitable adsorbent for nitrogen and phosphorus-based nutrients from aquaculture effluent based on studies conducted by other countries it would be an excellent opportunity to monetise oil palm biomass for a similar purpose as well. There are many well-established extraction methods introduced by researchers. However only a handful of the extraction method involved the use of green chemicals. This article provides a review of the extraction and modification for oil palm biomass towards becoming a potential adsorbent for nitrogen and phosphorusbased nutrients.

Additional Metadata

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Item Type: Article
AGROVOC Term: Cellulose
AGROVOC Term: Oil palm
AGROVOC Term: Biomass
AGROVOC Term: Nutrients
AGROVOC Term: Nitrates
AGROVOC Term: Phosphorus
AGROVOC Term: Environmental control
AGROVOC Term: Sustainable agriculture
AGROVOC Term: Scientists
AGROVOC Term: Environmental management
Depositing User: Mr. AFANDI ABDUL MALEK
Last Modified: 24 Apr 2025 00:55
URI: http://webagris.upm.edu.my/id/eprint/10247

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