Influence of Type and Concentration of Acids on Hydrolisis Starch of “Taro Tuber” Into Sugar Liquid

https://doi.org/10.22146/aij.v6i2.56956

Amna Hartiati(1*), I.A Mahatma Tuningrat(2)

(1) Department of Agricultural Industrial Technology, Faculty of Agricultural Technology, Udayana University
(2) Department of Agricultural Industrial Technology, Faculty of Agricultural Technology, Udayana University
(*) Corresponding Author

Abstract


The objectives of this research are (1) to know the effect of acid type and concentration on the hydrolysis of Taro tuber starch into liquid sugar (2) to know the type and concentration of acid that can produce the best liquid sugar characteristic in the hydrolysis of Taro tuber starch. The study used a complete randomized design with two factorial patterns. There are the type and concentration of acid used for the hydrolysis of Taro tuber starch. The variables observed were sugar reduction and liquid sugar clarity. The results showed that the type and concentration of acids and their interactions significantly affected the Dextrose Equivalent of liquid sugar produced. The best treatment is hydrolysis using nitric acid (HNO3) with 6% concentration with Dextrosa Equivalent is 57,470 %.


Keywords


Acid hydrolysis; Liquid sugar; Taro tuber starch.

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References

Aini,N. 2004. Processing of Sweet Potato Flour and Its Products for Economic Empowerment of Rural Communities. Science Philosophy Personal Papers (Pps 702). Graduate School. IPB Bogor.

Apriyantono, A., D. Fardiaz, N.L. Puspitasari, Sedarnawati dan S. Budiyanto, 1989. Food Analysis Laboratory Instructions. PAU Food and Nutrition IPB, Bogor.

Budiyanto A, Martosuyono P, Richana N. 2005. Food Analysis Laboratory Instructions. PAU Food and Nutrition IPB, Bogor

Faridah DN. 2005. Physico-Chemical Properties of Suweg Flour and Glycemic Index. J. Teknol and Food Industry. 16 (3): 254-259

Hartoyo, 2007. The Sweet Potato Product. http://homecooking.about.com/ library/weekly/the_sweet_potato_product. html. Accessed January 20, 2010

Horwitz W, George WL. 2005. Official Methods of Analysis of AOAC International. Gaithersburg, Maryland, USA.

Kriswidarti T. 1980. Suweg. Carcass Flower relatives that are potential as a source of carbohydrates. Botanical Garden Bulletin 4 (5): 171-174.

Lopez M J, Nichols NN, Dien BS, Moreno J. 2004. Isolation of Microorganism for Biological Detoxification of Lignocellulosic Hydrolyzates. J Appl. Microbiol Biotechnol 64 : 125-131.

Maligan JM, Teti S, Wenny BS, Thomas R. 2011. Effects of Hypocholesterolemia on Gadung Flour (Dioscorea hispida Dennst) on Male Wistar Rats Given a Diet of Hypercholesterolemia. J. Agricultural Technology 12 (2): 91-99

Muchtadi, T.R. 1989. Food Processing Process Technology. PAU Food and Nutrition. Bogor Agricultural Institute. Bogor.

Muchtadi D, Palupi NS, Astawan M. 1992. Enzymes in Food Industry. PAU-IPB Bogor.

Parwiyanti, Filli P. Renti A. 2011. Chemical and Physical Properties of Liquid Sugar of Gadung starch (Dioscorea hispida Dents). J. Teknol. Dan Industri Pangan 17 (2) :171-176.

Richana N, Damardjati D S, Prastowo B,dan Hasanudin A. 1990. Utilization of Cassava Flour and Nuts in the Diversification of Food Materials. Assessment and development of Pre and Postharvest Technology of Cassava. Pros Sem Nas, UPT EPG Lampung.

Rodmui A, Jirasak K, dan Yuwapin D. 2008. Optimization of Agitation Conditions for Maximum Ethanol Production by Coculture. Kasetsart J. (Nat. Sci.) 42 : 285 – 293

Sudarmadji, S.B. Haryono dan Suhardi. 1997. Analysis Procedures for Food and Agriculture Materials, Liberty, Yogyakarta

Suhartono MT. 1989. Enzymes and biotechnology. Department of Education and Culture, Directorate General of Higher Education, Inter-University Biotechnology, IPB, Bogor.

Soesanto, S.H. 1983. Study the process of making enzymatic glucose syrup from sweet potato starch. http: //repository.ipb.ac.id/ bitstream / handle / 123456789/38170 / F83SHS_ abstract.pdf? sequence. Retrieved March 11, 2012.

Steel, R.G. and H. J.H. Torrie, 1991. Statistics Principles and Procedures. (Translation B. Sumantri). PT. Gramedia Main Library, Jakarta

Taherzadeh MJ, Karimi K. 2007a. Acid-Based Hydrolysis Processes for Ethanol from Lignocellulosic Materials. J BioResourches 2 :472-499.

Taherzadeh MJ, Karimi K. 2007b. EnzymeBased Hydrolysis Process for Ethanol from Lignocellulosic Material. Review: J BioResources 2 (4) : 707-738.

Tjokroadikoesoemo PS. 1986. HFS and other Cassava Industries. Gramedia, Jakarta.

Triyatna SO. 2012. Sugar Production Only 60 Percent Needs. http://bisniskeuangan.kompas.com [accessed November 1, 2012]

Wahyuni TS. 2010. Making dextrins from taro tuber starch with enzymatic hydrolysis. Essay. Faculty of Industrial Technology University of National Development "Veteran" East Java.

Wargiono J, A. Hasanuddin, Suyamto. 2006. Technology of Cassava Production Supporting the Bioethanol Industry. Agricultural Research and Development Agency, Jakarta.

Whitaker JR. 1996. Principles of Enzymology for Food Sciences. MD Inc. New York.

Winarno FG. 1992. Food and Nutrition Chemicals. Gramedia Main Library, Jakarta

Yunianta, Tri S, Apriliastuti, Teti E., dan Siti N W. 2010. Hydrolysis Synergistically Garut Starch (Marantha arundinaceae L.) By Enzymes Α-Amylase, Glukoamilase, And Pullulanase For Production Of Glucose Syrup. J Agricultural Technology 11 (2): 78 - 86



DOI: https://doi.org/10.22146/aij.v6i2.56956

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