Effect of Drying on the Yield and Sensory of Germinated Mung Bean Flour (Vigna radiata L)

Sudana Fatahillah Pasaribu; Herviana Herviana; Wanda Lestari

doi:10.21111/dnj.v7i1.9768

Penulis

Sudana Fatahillah Pasaribu Program Studi Gizi, Institut Kesehatan Helvetia, Medan, Indonesia http://orcid.org/0000-0003-3937-6278
Herviana Herviana Program Studi Sarjana Gizi, Institut Kesehatan Mitra Bunda, Batam, Indonesia
Wanda Lestari Program Studi Gizi, Institut Kesehatan Helvetia, Medan, Indonesia

DOI:

https://doi.org/10.21111/dnj.v7i1.9768

Kata Kunci:

Drying, Germinated Mung Been Flour, Yield, Sensory

Abstrak

Background: Mung bean (Vigna radiata L.) is a source of nutrient-rich vegetable protein and provides many health benefits. The germination process is one way to increase the bioavailability of mung beans. Objective: This study aims to determine the effect of drying time on the characteristics and the best drying time on germinated mung bean flour. Method: This study used a one-factor design, namely drying time (7 hours, 10 hours, and 13 hours) with yield and sensory parameters (aroma, color, and texture) of germinated mung bean flour. All data were tested with ANOVA and continued with Duncan's LSD test. Results: The results showed that there was an effect of drying time on the yield value, aroma, and texture of germinated mung bean flour (p<0.01). However, there was no effect of drying time on the aroma germinated mung bean flour P1 (7 hours), P2 (10 hours), dan P3 (13 hours) (p>0.01). Conclusion: The conclusion of this study proves that the drying time of P1, P2, and P3 can affect the increase in yield values and sensory scores (color and texture) on germinated mung bean flour. However, the drying time of P1, P2, and P3 did not affect sensory (aroma). The best germinated mung bean flour is dried for 13 hours at 55ËšC. Key words : Drying, Germinated Mung Been Flour, Yield, Sensory

Biografi Penulis

Sudana Fatahillah Pasaribu, Program Studi Gizi, Institut Kesehatan Helvetia, Medan, Indonesia

Institut Kesehatan Helvetia

Herviana Herviana, Program Studi Sarjana Gizi, Institut Kesehatan Mitra Bunda, Batam, Indonesia

Institut Kesehatan Mitra Bunda

Wanda Lestari, Program Studi Gizi, Institut Kesehatan Helvetia, Medan, Indonesia

Institut Kesehatan Helvetia

Referensi

Ariantika, C., Nurwantoro, N., & and Pramono, Y. 2017. Karakteristik Fisik, Kimia, dan Mutu Hedonik Tepung Durian Fermentasi (Tempoyak) dengan Suhu Pengeringan yang BerbedaTitle. Jurnal Teknologi Pangan, 1(2), 39â€“44.

Dolla, M., Vonnisye, V., & Tanan, A. 2021. Pengaruh Pemberian Ekstrak Kecambah Kacang Hijau Dan Bokashi Limbah Ternak Kambing Terhadap Pertumbuhan Dan Produksi Bawang Merah (Allium ascolonicum L). AGROVITAL, 6(1), 34â€“37.

Farida, S., Kusumawardani, N. D., & Hariyani, N and Purwanti, G. A. 2022. Karakteristik Kimia dan Aktifitas Antioksidan Tepung Ubi Jalar Ungu Varietas Antin 2 dan Varietas Antin 3. Jurnal Green House, 1(1), 07â€“18.

Ferdiawan, N., Nurwantoro, N., & Dwiloka, B. 2019. Pengaruh Lama Waktu Germinasi terhadap Sifat Fisik dan Sifat Kimia Tepung Kacang Tolo (Vigna unguiculata L). Jurnal Teknologi Pangan, 3(2), 349â€“354.

Hastuti, D. P., Supriyono, & Hartati, S. 2018. Pertumbuhan dan Hasil Kacang Hijau (Vigna radiata, L.) pada Beberapa Dosis Pupuk Organik dan Kerapatan Tanam. Caraka Tani: Journal of Sustainable Agriculture, 33(2), 89â€“95. https://doi.org/https://doi.org/10.20961/carakatani.v33i2.20412

Hou, D., Yousaf, L., Xue, Y., Hu, J., Wu, J., Hu, X., Feng, N., & Shen, Q. 2019. Mung Bean (Vigna radiata L.): Bioactive Polyphenols, Polysaccharides, Peptides, and Health Benefits. Nutrients, 11(6), 1238.

Kemenkes. 2018. Data Komposisi Pangan Indonesia. Kemenkes. http://panganku.org/id-ID/view

Khoirunnissa, R., Ningrum, A., Fitriani, A., & Supriyadi, S. (2022). Isoterm Adsorpsi Serta Pendugaan Umur Simpan Tepung Polong-Polongan Indigenous Indonesia. Jurnal Teknologi Pertanian, 23(2), 129â€“138.

Lorenza, R. 2023. Penerapan Model Predator-Preypada Proses Perkecambahan Biji Kacang Hijau. Indonesian Journal of Applied Mathematics, 2(2), 44â€“50.

Pasaribu, S. F., Budiyanti, W., & Kartikasari, L. R. 2021. Analisis antosianin dan flavonoid ekstrak kecambah beras hitam. Jurnal Dunia Gizi, 4(1), 08-14.

Rahmadhan, D., & Hermalena, L. 2021. Pengaruh Lama Pengeringan Buah Lindur (Bruguiera Ghymnorrhiza L.) Terhadap Mut Tepung. Jurnal Research Ilmu Pertanian, 1(2), 101â€“109.

Rahmawati, Y., Solikhin, A., & Fera, M. 2020. Uji organoleptik tepung ampas tahu dengan variasi lama pengeringan. Jurnal Ilmiah Gizi Kesehatan (JIGK), 2(1), 11â€“17.

Syafii, F., & Fajriana, H. 2022. Optimasi Proses Pengeringan Pada Pembuatan Tepung Ikan Penja Terhadap Kadar Protein, Kadar Gizi, Kadar Air Dan Rendemen Tepung Ikan Penja. Journal Of Agritech Science (JASc), 6(2), 101â€“111.

Syafutri, M., Syaiful, F., Lidiasari, E., & Pusvita, D. 2020. Pengaruh Lama dan Suhu Pengeringan Terhadap Karakteristik Fisikokimia Tepung Beras Merah (Oryza nivara): Pengaruh Lama dan Suhu Pengeringan Terhadap Karakteristik Fisikokimia Tepung Beras Merah (Oryza nivara). AGROSAINSTEK: Jurnal Ilmu Dan Teknologi Pertanian, 4(2), 2020.

Syofia, I., Khair, H., & Anwar, K. (2015). Respon Pertumbuhan Dan Produksi Tanaman Kacang Hijau (Vigna Radiata L) Terhadap Pemberian Pupuk Organik Padat Dan Pupuk Organik Cair. Agrium, 19(1), 68â€“76.

Effect of Drying on the Yield and Sensory of Germinated Mung Bean Flour (Vigna radiata L)

Penulis

DOI:

Kata Kunci:

Abstrak

Biografi Penulis

Sudana Fatahillah Pasaribu, Program Studi Gizi, Institut Kesehatan Helvetia, Medan, Indonesia

Herviana Herviana, Program Studi Sarjana Gizi, Institut Kesehatan Mitra Bunda, Batam, Indonesia

Wanda Lestari, Program Studi Gizi, Institut Kesehatan Helvetia, Medan, Indonesia

Referensi

##submission.downloads##

Telah diserahkan

Diterima

Diterbitkan

Cara Mengutip

Terbitan

Bagian

Lisensi

Terbitan Terkini

Cari

Bahasa

Dikembangkan Oleh

Kata Kunci

Informasi

Index List

Assosiated

Address:

Contact Info:

Information :