Variation of roasting temperature in making cookies with barlin banana flour base and skin (Musa Acuminata AA) on dietary fiber content and organoleptic test

Hari Minantyo; Prasetyon Sepsi Winarno; Wike Warrauw

doi:10.15294/jkomtek.v10i2.18031

Variation of roasting temperature in making cookies with barlin banana flour base and skin (Musa Acuminata AA) on dietary fiber content and organoleptic test

Hari Minantyo⁽¹⁾, Prasetyon Sepsi Winarno⁽²⁾, Wike Warrauw⁽³⁾,

DOI: https://doi.org/10.15294/jkomtek.v10i2.18031

(1) UC Town, Waterpark Boulevard, CitraLand CBD Surabaya 60219, Jawa Timur, Indonesia
(2) UC Town, Waterpark Boulevard, CitraLand CBD Surabaya 60219, Jawa Timur, Indonesia
(3) UC Town, Waterpark Boulevard, CitraLand CBD Surabaya 60219, Jawa Timur, Indonesia

Abstract

The purpose of this study was to use barlin banana peel waste (Musa acuminata AA) with flour made together as well as the banana fruit. Barlin banana flour with skin is made into a cake. The results of these cookies are tested in the laboratory to determine the content of dietary fiber. This type of research is experimental research. The production starts from fresh barlin banana into berlin banana flour. The process of making cookies using a roasting process at a different temperature of 170^oC, 175^oC, and 180^oC for 10 minutes. Test the nutritional content of barlin banana flour mixed with the skin containing 3.96 dietary fiber. The content of dietary fiber in cakes is made from barlin banana flour mixed with the roasting process, the higher the heating temperature, the less the fiber content of the food reaches 3.89%. In the organoleptic test, cakes tested on 20 respondents resulted in 60% agree, for the texture of crispy cookies in 25% approve and 75% strongly agreed, for the Â aroma of fragrant cakes, stating 40% agreed, and 45% strongly agreed, to the taste of cookies that are crisp 40% approved and 50% strongly agreed.

Keywords

Cookies, Barlin Banana Flavour, Banana Skin, fiber, organoleptic test

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References

Awolu, O.O.; Omoba, O.; Olawoye, O.; Dairo, M. 2016. Optimization of production and

quality evaluation of maize-based snack supplemented with soybean and tiger-nut (Cyperus esculenta) flour. Food Science & Nutrition 5(1): 3â€“13.

Agama-Acevedo, E.; NuÃ±ez-Santiago, M.C.; AlvarezRamirez, J.; Bello-PÃ©rez, L.A. 2015.

Physicochemical, digestibility and structural characteristics of starch isolated from banana cultivars. Carbohydrate Polymers 124: 17â€“24.

Fajri, M. 2012. Aplikasi Protein dalam Pengolahan Makanan. Tesis Teknologi Hasil Pertanian Fakultas Pertanian Universitas Jambi.

HernÃ¡ndez, R. 2006. Elaboration of spaghetti added with banana starch: physical,

chemical, nutritional and quality characterization. Master Thesis. National Polytechnic Institute. Center for the development of biotic products. Morelos, Mexico.

Prabawati, S., Suyanti dan Setyabudi, D.A. 2008. Teknologi Pascapanen dan Pengolahan Buah Pisang. Balai Besar Penelitian dan Pengembangan Pascapanen Pertanian. Dalam Seminar Badan Litbang Pertanian. Departemen Pertanian, Bogor.

Patzi, J. 2007. Determination of Thiamin and Riboflavin in wheat flour, soybean meal and banana flour by the fluorometric method. Tesina for bachelor's degree in biochemistry- Pharmacy. La Paz, Bolivia.Faculty of Pharmaceutical and biochemical sciences. University of San AndrÃ©s

Purba, F.H.K. 2004. Produksi Buah Pisang Di Indonesia. Subdit Promosi dan Pengembangan Pasar Direktorat Pemasaran Internasional, DITJEN PPHP, 2002-2004.

Suganda. 2006. Pengaruh Konsentrasi dan Lama Perendaman dalam Larutan Natrium Bikarbonat Terhadap Karakteristik Keripik Pisang. Tesis pada Unpad Bandung.

Yasinta, U.N.A., Dwiloka, B., Nurwantoro, 2017, Pengaruh Subtitusi Tepung Terigu Dengan Tepung Pisang Terhadap Sifat Fisikokimia dan Organoleptik Cookies. Jurnal Aplikasi Teknologi Pangan, 6(3), 119-123

Widowati, S., and Darmadjati, D.S. 2001. Menggali Sumberdaya Pangan Lokal Dalam rangka Ketahanan Pangan. Majalah Pangan No. 36/x/Jan/2001.Bulog, Jakarta.

Dhingra, D., Michael, M., Rajput, H., and Patil, R.T., 2012, Dietary fibre in foods: a review, Journal of Food Science and Technology, 49(3): 255â€“266

Pragati, S., Genitha I and Ravish, K., 2014, Comparative Study of Ripe and Unripe Banana Flour during Storage, Journal of Food Processing & Technology, 5, (11), 1000384, 1-6.

Cahyana, Y. and Restiani, R., 2017, Wheat Flour Substitution with Retrograded Banana Flour to Produce Cookies Possessing Good Physical Characteristics and Low Glycemic Index, in 2nd International Conference on Sustainable Agriculture and Food Security: A Comprehensive Approach, KnE Life Sciences, 556â€“562.

Bezerra, C.V.; Amante, E.R.; de Oliveira, D.C.; Rodrigues, A.M.C.; da Silva, L.H.M. 2013. Green banana (Musa cavendishii) flour obtained in spouted bed â€“ Effect of drying on physico-chemical, functional and morphological characteristics of the starch. Industrial Crops and Products 41: 241â€“249.

Nurhayati, C. and Andayani, O, 2014, Teknologi Mutu Tepung Pisang dengan Sistem Spray Drying untuk Biskuit,Jurnal Dinamika Penelitian Industri, 25(1), 31-41.

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