Effect of additives on the ash element from combustion of palm fiber and shell
Palm fibre and shell (F&S) are commonly used in the combustion process to produce steam and electricity in palm oil mills in Malaysia. Unfortunately, the combustion process releases various types of elements that tends to react with each other contributing to operational and environmental issues...
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2020
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Online Access: | http://eprints.utm.my/id/eprint/92743/1/NorRuwaidaJamian2020_EffectofAdditivesontheAshElementfromCombustion.pdf http://eprints.utm.my/id/eprint/92743/ http://dx.doi.org/10.1088/1755-1315/616/1/012009 |
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my.utm.927432021-10-28T10:13:46Z http://eprints.utm.my/id/eprint/92743/ Effect of additives on the ash element from combustion of palm fiber and shell J., NorRuwaida M., Dewika S., Shahidana M., Rashid Md. Ali, Abd. Halim M. P., Khairunnisa Ammar, M. R. Zahiruddin, S. Y. Y., Sara T Technology (General) Palm fibre and shell (F&S) are commonly used in the combustion process to produce steam and electricity in palm oil mills in Malaysia. Unfortunately, the combustion process releases various types of elements that tends to react with each other contributing to operational and environmental issues. Thus, this motivated, a study to evaluate the concentration of the elements such as C, O, Si, K, and Al in the ash with the presence of two combustion additive which are Kaolin and PreKotTM. The study was performed by simulating the industrial combustion in a laboratory-scale fluidised-bed reactor with addition of the additives at 8% ratio from the 40 g total weight of each sample at 800°C with the supply of 50% excess air at 1.24 L/min air flow. The ash residue were investigated for elemental composition on the ash surface. Interestingly, the study showed that the concentration of the element on the ash surface increased with the addition of additives especially at a 50% ratio of Kaolin and PreKotTM. The higher concentration of the element on the ash surface indicates the reduction of fine particulate. Hence, the study revealed that addition of Kaolin & PrekotTM in combustion process has a promising future not only within palm oil industry but also other industry. 2020 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/92743/1/NorRuwaidaJamian2020_EffectofAdditivesontheAshElementfromCombustion.pdf J., NorRuwaida and M., Dewika and S., Shahidana and M., Rashid and Md. Ali, Abd. Halim and M. P., Khairunnisa and Ammar, M. R. and Zahiruddin, S. and Y. Y., Sara (2020) Effect of additives on the ash element from combustion of palm fiber and shell. In: 2nd International Conference on Green Environmental Engineering and Technology 2020, IConGEET 2020, 23 - 24 July 2020, Seoul, Virtual. http://dx.doi.org/10.1088/1755-1315/616/1/012009 |
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T Technology (General) J., NorRuwaida M., Dewika S., Shahidana M., Rashid Md. Ali, Abd. Halim M. P., Khairunnisa Ammar, M. R. Zahiruddin, S. Y. Y., Sara Effect of additives on the ash element from combustion of palm fiber and shell |
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Palm fibre and shell (F&S) are commonly used in the combustion process to produce steam and electricity in palm oil mills in Malaysia. Unfortunately, the combustion process releases various types of elements that tends to react with each other contributing to operational and environmental issues. Thus, this motivated, a study to evaluate the concentration of the elements such as C, O, Si, K, and Al in the ash with the presence of two combustion additive which are Kaolin and PreKotTM. The study was performed by simulating the industrial combustion in a laboratory-scale fluidised-bed reactor with addition of the additives at 8% ratio from the 40 g total weight of each sample at 800°C with the supply of 50% excess air at 1.24 L/min air flow. The ash residue were investigated for elemental composition on the ash surface. Interestingly, the study showed that the concentration of the element on the ash surface increased with the addition of additives especially at a 50% ratio of Kaolin and PreKotTM. The higher concentration of the element on the ash surface indicates the reduction of fine particulate. Hence, the study revealed that addition of Kaolin & PrekotTM in combustion process has a promising future not only within palm oil industry but also other industry. |
format |
Conference or Workshop Item |
author |
J., NorRuwaida M., Dewika S., Shahidana M., Rashid Md. Ali, Abd. Halim M. P., Khairunnisa Ammar, M. R. Zahiruddin, S. Y. Y., Sara |
author_facet |
J., NorRuwaida M., Dewika S., Shahidana M., Rashid Md. Ali, Abd. Halim M. P., Khairunnisa Ammar, M. R. Zahiruddin, S. Y. Y., Sara |
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J., NorRuwaida |
title |
Effect of additives on the ash element from combustion of palm fiber and shell |
title_short |
Effect of additives on the ash element from combustion of palm fiber and shell |
title_full |
Effect of additives on the ash element from combustion of palm fiber and shell |
title_fullStr |
Effect of additives on the ash element from combustion of palm fiber and shell |
title_full_unstemmed |
Effect of additives on the ash element from combustion of palm fiber and shell |
title_sort |
effect of additives on the ash element from combustion of palm fiber and shell |
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2020 |
url |
http://eprints.utm.my/id/eprint/92743/1/NorRuwaidaJamian2020_EffectofAdditivesontheAshElementfromCombustion.pdf http://eprints.utm.my/id/eprint/92743/ http://dx.doi.org/10.1088/1755-1315/616/1/012009 |
_version_ |
1715189683422494720 |
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13.160551 |