Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets
Biomass can partly replace or reduce coal consumption in power generation, hence reducing the agricultural waste disposal issues and environmental pollution generated by fossil fuel emissions. Pelletization is among the techniques for utilizing biomass and has the advantage of being low cost and...
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Chaoyang University of Technology
2022
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my.upm.eprints.1093182024-08-16T07:52:40Z http://psasir.upm.edu.my/id/eprint/109318/ Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets Zulkornain, Muhammad Fikri Mohd Rawian, Nur Adilah Neshaeimoghaddam, Hesam Shamsuddin, Abd Halim Md Saad, Juniza Abd Rahman, Adlansyah Samsuri, Shafirah Naning, Fatin Hana Biomass can partly replace or reduce coal consumption in power generation, hence reducing the agricultural waste disposal issues and environmental pollution generated by fossil fuel emissions. Pelletization is among the techniques for utilizing biomass and has the advantage of being low cost and easy handling. In this research, broken rice was used as an organic binder at 5%, 10% and 15% and three different moistures (14%, 17% and 20%) were applied for rice husk and rice straw-based pellet, and the evaluation of pellet durability has been conducted. The results show that the addition of broken rice as a pellet binder significantly improves biomass pellet durability. The highest durability of rice husk-based pellet achieved was 99.4% with the binder addition of only 10%. For rice straw-based pellet, the binder percentage is directly proportional to pellet durability up to 15% of binder addition. The result shows a similar trend for the effect of moisture on pellet durability. For rice husk-based pellet, the optimal moisture addition is 17%, while for rice straw-based pellet, the durability increased as the moisture increased with the highest durability of 98.9% at 20% moisture addition. Rice straw requires more binder and moisture to enhance the pellet durability because raw rice straw contains less natural lignin and cellulose content than rice husk. Chaoyang University of Technology 2022-12 Article PeerReviewed Zulkornain, Muhammad Fikri and Mohd Rawian, Nur Adilah and Neshaeimoghaddam, Hesam and Shamsuddin, Abd Halim and Md Saad, Juniza and Abd Rahman, Adlansyah and Samsuri, Shafirah and Naning, Fatin Hana (2022) Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets. International Journal of Applied Science and Engineering, 19 (4). art. no. 2021235. pp. 1-6. ISSN 1727-2394; ESSN: 1727-7841 https://gigvvy.com/journals/ijase/articles/ijase-202212-19-4-002 10.6703/ijase.202212_19(4).002 |
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Biomass can partly replace or reduce coal consumption in power generation, hence
reducing the agricultural waste disposal issues and environmental pollution generated by
fossil fuel emissions. Pelletization is among the techniques for utilizing biomass and has
the advantage of being low cost and easy handling. In this research, broken rice was used
as an organic binder at 5%, 10% and 15% and three different moistures (14%, 17% and
20%) were applied for rice husk and rice straw-based pellet, and the evaluation of pellet
durability has been conducted. The results show that the addition of broken rice as a
pellet binder significantly improves biomass pellet durability. The highest durability of
rice husk-based pellet achieved was 99.4% with the binder addition of only 10%. For
rice straw-based pellet, the binder percentage is directly proportional to pellet durability
up to 15% of binder addition. The result shows a similar trend for the effect of moisture
on pellet durability. For rice husk-based pellet, the optimal moisture addition is 17%,
while for rice straw-based pellet, the durability increased as the moisture increased with
the highest durability of 98.9% at 20% moisture addition. Rice straw requires more
binder and moisture to enhance the pellet durability because raw rice straw contains less
natural lignin and cellulose content than rice husk. |
| format |
Article |
| author |
Zulkornain, Muhammad Fikri Mohd Rawian, Nur Adilah Neshaeimoghaddam, Hesam Shamsuddin, Abd Halim Md Saad, Juniza Abd Rahman, Adlansyah Samsuri, Shafirah Naning, Fatin Hana |
| spellingShingle |
Zulkornain, Muhammad Fikri Mohd Rawian, Nur Adilah Neshaeimoghaddam, Hesam Shamsuddin, Abd Halim Md Saad, Juniza Abd Rahman, Adlansyah Samsuri, Shafirah Naning, Fatin Hana Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets |
| author_facet |
Zulkornain, Muhammad Fikri Mohd Rawian, Nur Adilah Neshaeimoghaddam, Hesam Shamsuddin, Abd Halim Md Saad, Juniza Abd Rahman, Adlansyah Samsuri, Shafirah Naning, Fatin Hana |
| author_sort |
Zulkornain, Muhammad Fikri |
| title |
Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets |
| title_short |
Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets |
| title_full |
Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets |
| title_fullStr |
Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets |
| title_full_unstemmed |
Influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets |
| title_sort |
influence of organic binder and moisture content on the durability of rice husk and rice straw-based pellets |
| publisher |
Chaoyang University of Technology |
| publishDate |
2022 |
| url |
http://psasir.upm.edu.my/id/eprint/109318/ https://gigvvy.com/journals/ijase/articles/ijase-202212-19-4-002 |
| _version_ |
1809142987459919872 |
| score |
13.211869 |