Thin-layer drying model of Cosmos caudatus (C. caudatus)
Drying kinetic models and energy characteristics are well known as tools to evaluate and predict the most suitable drying physiochemical conditions for a particular product. In this study, a thin-layer drying model was developed to best describe the drying kinetic behaviour of Cosmos caudatus (C. ca...
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Association of the Chemical Engineers of Serbia (ACHE)
2020
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my.utm.912262021-06-21T08:41:22Z http://eprints.utm.my/id/eprint/91226/ Thin-layer drying model of Cosmos caudatus (C. caudatus) Abdul Latiff, Norliza Abdullah, Luqman Chuah Ong, Pei Ying Mohd. Amin, Nor Amaiza QD Chemistry Drying kinetic models and energy characteristics are well known as tools to evaluate and predict the most suitable drying physiochemical conditions for a particular product. In this study, a thin-layer drying model was developed to best describe the drying kinetic behaviour of Cosmos caudatus (C. caudatus). The drying experiments were conducted using a thermal convection oven and C. caudatus leaves were dried at five different temperatures (40, 50, 60, 70, 80°C). Six different thin-layer drying models were proposed and applied to select the best drying model by fitting to the experimental moisture ratio data. The proposed drying models included Page, Modified Page, Lewis, Henderson-Pabis, Two Term and Weibull and the results were statically compared and evaluated based on their goodness of fit. Among these, the Page model was found to best to represent the thin-layer drying behaviour of C. caudatus with 99.76 %, 5.93 x 10-5, 9.68 x 10-5 for the coefficients determination (R2), reduced chi-square (χ2), and root mean square error (RMSE), respectively. The average effective moisture diffusion coefficient (Deff) for the temperature 40 to 80°C ranged from 4.12 x 10-12 to 24.71 x10-12 m2/s, while the activation energy (Ea) was calculated at 39.35 kJ/mol based on the Arrhenius’s equation. Association of the Chemical Engineers of Serbia (ACHE) 2020 Article PeerReviewed Abdul Latiff, Norliza and Abdullah, Luqman Chuah and Ong, Pei Ying and Mohd. Amin, Nor Amaiza (2020) Thin-layer drying model of Cosmos caudatus (C. caudatus). Chemical Industry & Chemical Engineering Quarterly . p. 38. ISSN 2217-7434 http://dx.doi.org/10.2298/CICEQ191121038L |
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QD Chemistry Abdul Latiff, Norliza Abdullah, Luqman Chuah Ong, Pei Ying Mohd. Amin, Nor Amaiza Thin-layer drying model of Cosmos caudatus (C. caudatus) |
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Drying kinetic models and energy characteristics are well known as tools to evaluate and predict the most suitable drying physiochemical conditions for a particular product. In this study, a thin-layer drying model was developed to best describe the drying kinetic behaviour of Cosmos caudatus (C. caudatus). The drying experiments were conducted using a thermal convection oven and C. caudatus leaves were dried at five different temperatures (40, 50, 60, 70, 80°C). Six different thin-layer drying models were proposed and applied to select the best drying model by fitting to the experimental moisture ratio data. The proposed drying models included Page, Modified Page, Lewis, Henderson-Pabis, Two Term and Weibull and the results were statically compared and evaluated based on their goodness of fit. Among these, the Page model was found to best to represent the thin-layer drying behaviour of C. caudatus with 99.76 %, 5.93 x 10-5, 9.68 x 10-5 for the coefficients determination (R2), reduced chi-square (χ2), and root mean square error (RMSE), respectively. The average effective moisture diffusion coefficient (Deff) for the temperature 40 to 80°C ranged from 4.12 x 10-12 to 24.71 x10-12 m2/s, while the activation energy (Ea) was calculated at 39.35 kJ/mol based on the Arrhenius’s equation. |
| format |
Article |
| author |
Abdul Latiff, Norliza Abdullah, Luqman Chuah Ong, Pei Ying Mohd. Amin, Nor Amaiza |
| author_facet |
Abdul Latiff, Norliza Abdullah, Luqman Chuah Ong, Pei Ying Mohd. Amin, Nor Amaiza |
| author_sort |
Abdul Latiff, Norliza |
| title |
Thin-layer drying model of Cosmos caudatus (C. caudatus) |
| title_short |
Thin-layer drying model of Cosmos caudatus (C. caudatus) |
| title_full |
Thin-layer drying model of Cosmos caudatus (C. caudatus) |
| title_fullStr |
Thin-layer drying model of Cosmos caudatus (C. caudatus) |
| title_full_unstemmed |
Thin-layer drying model of Cosmos caudatus (C. caudatus) |
| title_sort |
thin-layer drying model of cosmos caudatus (c. caudatus) |
| publisher |
Association of the Chemical Engineers of Serbia (ACHE) |
| publishDate |
2020 |
| url |
http://eprints.utm.my/id/eprint/91226/ http://dx.doi.org/10.2298/CICEQ191121038L |
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