FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS
Composting is a controlled biological process that converts organic matter into soil conditioner and kinetic modelling is necessary to design the composting system. The aims of this study are to determine the optimum compost mixture and turning frequency for food waste and dry leaves composting,...
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Universiti Malaysia Sabah (UMS)
2023
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my.unimas.ir.453092024-07-18T01:51:04Z http://ir.unimas.my/id/eprint/45309/ FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS Mohd Al, Mussa Ugak Nur Aqeela, Syuhadah Aji Abu Zahrim, Yaser Junidah, Lamaming Mariani, Rajin Sariah, Saalah TD Environmental technology. Sanitary engineering Composting is a controlled biological process that converts organic matter into soil conditioner and kinetic modelling is necessary to design the composting system. The aims of this study are to determine the optimum compost mixture and turning frequency for food waste and dry leaves composting, as well as to evaluate an elemental kinetic model based on volatile solids (VS). The elemental kinetics of the process were determined using pseudo zero-, first-, second- and n-order equations. Three different feedstock mixtures were used, namely 40% FW (Mix A), 60% FW (Mix B) and 80% FW (Mix C). Four sets of experiments (TF for every 0, 1, 3, and 5 days) were conducted to investigate the turning frequency (TF). The composting process was carried out in a compost bottle for 40 days. Based on organic matter loss, Mix B and C had the highest OM loss, indicating an acceptable initial compost mixture. The turning frequency of every three days resulted in the highest organic matter loss. Kinetic analysis was performed using coefficient correlation (R2 ), root mean square error (RMSE) and modelling efficiency (EF). Application of the second-order model resulted in good responses for compost mixture Mix B and C. Meanwhile, the n-order model successfully estimated the VS changes for the 3-days TF. Universiti Malaysia Sabah (UMS) 2023 Article PeerReviewed text en http://ir.unimas.my/id/eprint/45309/1/Ugak%20et%20al%202022.pdf Mohd Al, Mussa Ugak and Nur Aqeela, Syuhadah Aji and Abu Zahrim, Yaser and Junidah, Lamaming and Mariani, Rajin and Sariah, Saalah (2023) FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS. Borneo Science | The Journal of Science and Technology, 43 (1). pp. 1-15. ISSN 1394-4339 https://jurcon.ums.edu.my/ojums/index.php/borneo-science/article/view/4404 doi:10.51200/bsj.v43i1.4404 |
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TD Environmental technology. Sanitary engineering Mohd Al, Mussa Ugak Nur Aqeela, Syuhadah Aji Abu Zahrim, Yaser Junidah, Lamaming Mariani, Rajin Sariah, Saalah FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS |
| description |
Composting is a controlled biological process that converts organic matter into soil
conditioner and kinetic modelling is necessary to design the composting system. The aims of this
study are to determine the optimum compost mixture and turning frequency for food waste and dry
leaves composting, as well as to evaluate an elemental kinetic model based on volatile solids (VS).
The elemental kinetics of the process were determined using pseudo zero-, first-, second- and n-order
equations. Three different feedstock mixtures were used, namely 40% FW (Mix A), 60% FW (Mix B)
and 80% FW (Mix C). Four sets of experiments (TF for every 0, 1, 3, and 5 days) were conducted to
investigate the turning frequency (TF). The composting process was carried out in a compost bottle
for 40 days. Based on organic matter loss, Mix B and C had the highest OM loss, indicating an
acceptable initial compost mixture. The turning frequency of every three days resulted in the highest
organic matter loss. Kinetic analysis was performed using coefficient correlation (R2
), root mean
square error (RMSE) and modelling efficiency (EF). Application of the second-order model resulted
in good responses for compost mixture Mix B and C. Meanwhile, the n-order model successfully
estimated the VS changes for the 3-days TF. |
| format |
Article |
| author |
Mohd Al, Mussa Ugak Nur Aqeela, Syuhadah Aji Abu Zahrim, Yaser Junidah, Lamaming Mariani, Rajin Sariah, Saalah |
| author_facet |
Mohd Al, Mussa Ugak Nur Aqeela, Syuhadah Aji Abu Zahrim, Yaser Junidah, Lamaming Mariani, Rajin Sariah, Saalah |
| author_sort |
Mohd Al, Mussa Ugak |
| title |
FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS |
| title_short |
FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS |
| title_full |
FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS |
| title_fullStr |
FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS |
| title_full_unstemmed |
FOOD WASTE-DRY LEAVES COMPOSTING: MIXTURE FORMULATION, TURNING FREQUENCY AND KINETIC ANALYSIS |
| title_sort |
food waste-dry leaves composting: mixture formulation, turning frequency and kinetic analysis |
| publisher |
Universiti Malaysia Sabah (UMS) |
| publishDate |
2023 |
| url |
http://ir.unimas.my/id/eprint/45309/1/Ugak%20et%20al%202022.pdf http://ir.unimas.my/id/eprint/45309/ https://jurcon.ums.edu.my/ojums/index.php/borneo-science/article/view/4404 |
| _version_ |
1806430330239844352 |
| score |
13.188404 |