Evaluation of Banana Sale Drying Performance Using a Tray Dryer with Mathematics Modeling
Abstract
The drying process of Banana Sale involves two mathematical modeling approaches: the Newton model and the Henderson-Pabis model. The bananas are sliced and dried for 220 minutes at a temperature of 60°C with a drying rate of 4.5 m/s, and observations are made every 20 minutes. The research includes the analysis of moisture content, texture, and mass changes in banana chips. The modeling using the Newton and Henderson-Pabis models shows significant results. The drying rate coefficient (k) in both models is 0.00335, and the R2 values for both models are 0.98961 and 0.98967. These results indicate that both models are theoretically suitable for explaining the banana chips drying process, providing essential insights for understanding and optimizing this process.
Keywords
Full Text:
PDFReferences
Anandharamakrishnan, C., & Ishwarya, S. P. (2019). Essentials and Applications of Food Engineering. In Essentials and Applications of Food Engineering. CRC Press: Boca Raton.
Das, S. K., & Das, M. (2019). Fundamentals and operations in food process engineering. CRC Press: Boca Raton.
Fadilah, S. N., Khamil, A. I., Muharja, M., Darmayanti, R. F., & Aswie, V. (2022). Enhancement of the Quality of Onion Drying Using Tray Dryer. CHEESA: Chemical Engineering Research Articles, 5(2), 74–81.
Gandolfi, O. R. R., Gonçalves, G. R. F., Bonomo, R. C. F., & Fontan, R. da C. I. (2018). Sorption equilibrium and kinetics of thin-layer drying of green bell peppers. Emirates Journal of Food and Agriculture, 30(2), 137-143.
Imanuel, P., Suswati, S., & Indrawaty, A. (2021). Inventarisasi Keragaman Musuh Alami Erionota Thrax L. pada Beberapa Jenis Tanaman Pisang Bermikoriza di Desa Sampali. Jurnal Ilmiah Pertanian ( JIPERTA), 3(1), 56-63.
Irianto, I., & Sudarmin, S. (2020). Sistem pendukung keputusan dalam menentukan buah pisang yang paling diminati. JURTEKSI (Jurnal Teknologi Dan Sistem Informasi), 6(3), 277-284.
Ismiyati, I., Sari, F., Nugrahani, R. A., & Ramadhan, A. I. (2018). Effects of drying time on yield and moisture content of “sumahe” powdered drink using spray dryer. Aceh International Journal of Science and Technology, 7(3), 144-149.
Luthbis, A. A., & Ratnasari, F. (2020). Pengaruh konsumsi pisang ambon terhadap peningkatan kadar hb ibu hamil. Jurnal Kesehatan, 9(1), 1-11.
Muharja, M., Fadilah, S. N., Khamil, A. I., Darmayanti, R. F., Putri, D. K. Y., Rizkiana, M. F., ... & Azhar, B. (2023). Effect of immersion concentration in salt solution, drying time and air velocity on drying wet noodles using a tray dryer and solar assistance. Jurnal Teknik Kimia dan Lingkungan, 7(1), 9-16.
Naknaen, P., Charoenthaikij, P., & Kerdsup, P. (2016). Physicochemical properties and nutritional compositions of foamed banana powders (Pisang Awak, Musa sapientum L.) dehydrated by various drying methods. Walailak Journal of Science and Technology, 13(3), 177-191.
Omolola, A. O., Kapila, P. F., & Silungwe, H. (2019). Drying and colour characteristics of cleome gynandra l. (spider plant) leaves. Food Science and Technology (Brazil), 39, 588-594
Pratiwi, R. A. (2020). Pengolahan Ubi Jalar Menjadi Aneka Olahan Makanan. Jurnal Triton, 11(2), 42-50.
Ruddin, N. (2018). Kajian sistem pengolahan pisang sale dengan menggunakan gas elpiji. International Journal of Natural Science and Engineering, 2(1), 28–33.
Seftianti, A., & Imam Abdul Aziz. (2021). Pendampingan produksi umkm dalam meningkatkan usaha sale pisang di desa padamulya. ALMUJTAMAE: Jurnal Pengabdian Masyarakat, 1(1), 40-45.
Shomali, A., & Abbasi Souraki, B. (2019). Experimental investigation and mathematical modeling of drying of green tea leaves in a multi-tray cabinet dryer. Heat and Mass Transfer/Waerme- Und Stoffuebertragung, 55(12), 3645-3659.
Syukran, S., Azwinur, A., & Mukhlis, M. (2019). Aplikasi teknologi dapur bebas polusi untuk meningkatkan mutu dan gizi makanan tradisional pisang sale pada kelompok usaha bersama desa tanjong dalam selatan kecamatan langkahan kabupaten aceh utara. Jurnal Vokasi, 3(2), 86-89.
Wardhani, M. T., Fadilah, S. N., Prastika, A., Arimbawa, I. M., Khamil, A. I., Darmayanti, R. F., & Muharja, M. (2023). Pengaruh perendaman, waktu dan ketebalan pada pengeringan jahe putih (Zingiber officinale var. Amarum) menggunkan tray dyer dan solar dryer. DISTILAT: Jurnal Teknologi Separasi, 9(1), 1–10.
Widodo, W. D., Suketi, K., & Rahardjo, R. (2019). Evaluasi kematangan pascapanen pisang barangan untuk menentukan waktu panen terbaik berdasarkan akumulasi satuan panas. Buletin Agrohorti, 7(2), 162-171.
Wulandari, R. T., Widyastuti, N., & Ardiaria, M. (2018). Perbedaan pemberian pisang raja dan pisang ambon terhadap VO2max pada remaja di sekolah sepak bola. Journal of Nutrition College, 7(1), 8-14
Zikrillah, M., Muharja, M., Damayanti, R. F., Batuthoh, M. W. I., & Isnan, A. (2023). Metode baru perhitungan viskositas intrinsik dan berat molekul polihidroksialkanoat untuk produksi plastik biodegradable. Jurnal Penelitian IPTEKS, 8(2), 188–195.
DOI: https://doi.org/10.17509/edufortech.v9i1.60962
Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
View My Stats>