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All Journal Jurnal Bio-Geo Material Dan Energi
Muhammad Azizi Gunawan
University of Jambi
Humanities Electrical & Electronics Engineering Energy

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Modification of Yellow Yam Starch (Dioscorea alata) Using Various Solvent Ratio and Its Application for Edible Film: Starch Modification; Yellow Yam Starch; Edible Films; Volume, Starch composite Muhammad Azizi Gunawan; Ulyarti Ulyarti; Silvi Leila Rahmi
Journal BiGME Vol. 3 No. 1 (2023): Journal of Bio-Geo Material and Energy (BiGME), March 2023
Publisher : PUI BiGME Universitas Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22437/bigme.v3i1.30914

Abstract

Edible films from native starch have some weaknesses, one of which is the water vapor transmission rate is still high. To lower the rate of water vapor transmission may be used starch composites starch. This study aimed to obtain ethanol volumes that can produce modified starch with the smallest size, produce composite starch for edible film and to determine the characteristics of edible film made out of natural starch and edible film from composite starch (natural starch and modified starch). This research was conducted in 3 stages, namely: extraction of yam starch, modification of yam starch by precipitation method and production of edible films from natural starch and composite starch. This study was designed to produce modified starch using 5 levels of ratio between starch paste volume and ethanol volume 1:5, 1:7.5, 1:10, 1:12.5, 1:15. The results showed that the treatment of ratio 1:15 (1500 ml ethanol) produced the smallest particle size of starch 3,417 x 5,945 µm up to 15,038 x 16,708 µm with starch yield of 80%. Edible films made from composite starch have different characteristics than natural starch. Edible film from composite starch produces higher thickness values of 0.156 ± 0.006 mm, lower solubility of 27.385 ± 3.808%, lower transparency of 10.657 ± 0.278% /mm and lower water vapor transmission rate (WVTR) of 18.423 g / m2 hour, and compressive strength of 841.8 ± 6,823 gF than natural starch edible film.
Co-Authors Silvi Leila Rahmi Ulyarti