Journal of Applied Food Technology • pISSN 2355-9152 • eISSN 2614-7076 • Member of CrossRef®

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The Effect of Orange Peel Pectin Addition on Overrun, Melting Time, Total Solids, Total Dissolved Solids of Sherbet

Hasna Rahma Aulia, Nurwantoro Nurwantoro, Anang Mohamad Legowo

Abstract


The purpose of this research was to improve physical properties of sherbet with the addition of pectin orange peel. The experimental design of this research was using Completely Randomized Design (CRD) with 4 treatments and 5 replication with the addition of pectin concentration variations, 0% (T0), 0.2% (T1), 0.4% (T2), and 0.6% (T3). The observed parameter were physical properties of sherbet (overrun, melting time, total solids, total dissolved solids, and pH). The results showed the addition of pectin orange peel had no significant  result (P>0.05) on overrun and significant (P<0.05) on melting time, total solids, total dissolved solids, and pH. The best treatment from orange peel pectin addition on sherbet based on melting time, total solids, total dissolved solids, and pH were pectin concentration of 0.4% and 0.6%.


Keywords


pectin; orange peel; sherbet; physical properties

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References


Arbuckle, W.S. 1986. Ice Cream 4th Ed. Springer Science and Business Media. New York.

Christiaens, S., D. Uwibambe, M. Uyttebroek, B.V. Droogenbroeck, A.M.V. Loey, M.E. Hendrickx. 2015. Pectin characterisation in vegetable waste streams: A starting point

for waste valorisation in the food industry. Food Science and Technology 61: 275-282. Doi: 10.1016/j.lwt.2014.12.054

Dewi, R.K. 2010. Stabilizer concentration and sucrose to the velva tomato fruit quality. J. Teknik Kimia 4 (2): 330-334. (in Bahasa Indonesia).

Fishman, M.L., P.H. Cooke, H.K. Chau, D.R. Coffin, A.T. Hotchkiss. 2007. Global structures of high methoxyl pectin from solution and in gels. Biomacromolecules 8 (2): 573-578. Doi: 10.1021/bm0607729.

Fishman, M.L., H.K. Chau, P.X. Qi, A.T. Hotchkiss, R.A. Garcia, P.H. Cooke. 2015. Characterization of the global structure of low methoxyl pectin in solution. Food Hydrocolloids 46: 153-159. Doi: 10.1016/j.foodhyd.2014.12.021

Hanum, F., M.A. Tarigan, I.M.D. Kaban. 2012. Extraction of pectin from kepok banana fruit leather (Musa paradisiaca). J. Teknik Kimia USU. 1 (1): 49-53. (in Bahasa Indonesia)

Hartatie, E. S. 2012. Study of the formulation (raw materials and steady materials) and methods of manufacture to the quality of ice cream. GAMMA. 7 (1): 20-26. (in Bahasa Indonesia)

Hubeis, M.N. 1995. Package Food Industry Ice-Cream Industrial Economies Of Scale. Bul. Teknologi Industri Pangan. 7 (1): 100-102.

Johnson, A.H., M.S. Peterson. 1974. Encyclopedia of Food Technology. The AVI Publ. Co., Westport, Connecticut.

Kurniasari, L., Riwayati, I., dan Suwardiyono. 2012. Pectin as an alternative raw material biosorben heavy metals. Momentum 8 (1): 1-5. (in Bahasa Indonesia)

Lal, S.N.D., C.J. O’Connor, L.Eyres. 2006. Application of emulsifiers/stabilizers in dairy products of high rheology. Advances in Colloid and Interface Science 123-126: 433-437. Doi: 10.1016/j.cis.2006.05.009

Legowo, A.M., Nurwantoro, Sutaryo. 2005. Food Analysis. Badan Penerbit Universitas Diponegoro, Semarang. (in Bahasa Indonesia)

Malaka, R., Maruddin, F. 2011. Guiding Practical Science Technology & Milk Processing. Jurusan Produksi Ternak Fakultas Peternakan UNHAS, Makassar. (in Bahasa Indonesia)

Marshall, R.T., W.S. Arbuckle. 1996. Ice Cream. 5th Edition. Chapmann and Hall Publishing. London.

Masduqi, M., S. Ngabekti. 2015. The effect of long immersion and concentration of lemon juice against the levels of lead (Pb) in beef (a case study in TPA Jatibarang Semarang). Unnes J. Life Science. 4 (1): 45-53. (in Bahasa Indonesia)

Masykuri, Nurwantoro, R.A. Wibawa. 2009. The influence of the use of karaginan as a stabilizer against the physical condition and level of fondness on chocolate ice cream. Seminar Nasional Kebangkitan Peternakan. Semarang. (in Bahasa Indonesia)

Segal, K.I., H.D. Goff. 2002. A modified ice cream processing routine that promotes fat destabilization in the absence of added emulsifier. International Dairy Journal 12 (12): 1013-1018. Doi: 10.1016/S0958-6946(02)00117-6.

Soedarmadji, S., B. Haryono, Soehardi. 1984. The Procedure of Analysis For Food and Agriculture. Liberty, Yogyakarta. (in Bahasa Indonesia)

Subagyo, P., Z. Achmad. 2010. The poll of pectin and apple dregs in extraction. Eksergi. 10 (2). (in Bahasa Indonesia)

Sulihono, A., B. Tarihoran, T.E. Agustina. 2012. The influence of time, temperature and type of solvent extraction of pectin from against the skin of bali orange fruit (Citrus maxima). J. Teknik Kimia. 4 (18): 1-8. (in Bahasa Indonesia)

Strom, A., E. Schuster. S.M. Goh. 2014. Rheological characteization of acid pectin samples in the absesnce and presence of monovalent ions. Carbohydrate Polymers 113: 336-343. Doi: 10.1016/j.carbpol.2014.06.090

Winarno, F.G. 1992. Food Chemistry and Nutrition. PT Gramedia Pustaka Utama. Jakarta. (in Bahasa Indonesia)

Zahro, C., F.C. Nisa. 2015. Influence of addition of extract of grape (Vitis vinifera l.) and stabilizers against physical, chemical characteristics, and organoleptik ice cream. J. Pangan dan Agroindustri. 3 (4): 1481-1491. (in Bahasa Indonesia)




DOI: http://dx.doi.org/10.17728/jaft.31

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