Journal of the East Asian Society of Dietary Life (동아시아식생활학회지)

The East Asian Society of Dietary Life (동아시아식생활학회)
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Optimal Mixture Ratio for Rice (Oryza sativa L.) Gruel Supplemented with Puffed Rice by Mixture Design

혼합물 실험 계획법에 의한 팽화미 첨가 쌀죽의 최적 배합비 분석

  • Received : 2013.02.15
  • Accepted : 2013.04.26
  • Published : 2013.04.30
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Abstract

This study examined the optimal mixture ratio of rice gruel supplemented with puffed rice by mixture design. The quality characteristics of rice gruel samples were examined according to mixture ratios at eleven experimental points. The high soluble solid content and viscosity of gruel samples were significantly dependent on rice (short grain) content instead of glutinous rice. The viscosity ranged from $2,891{\sim}9,153\;cP{\cdot}s$ and soluble solid content ranged from $8.23{\sim}10.13^{\circ}Brix$ at the eleven experimental points. The mixture with the highest solid content and viscosity, 12% rice gruel sample was $10.10{\sim}10.13^{\circ}Brix$ and $9,150{\sim}9,153\;cP{\cdot}s$. The L color of sample decreased with decreasing rice content, while "a" (redness) and "b" (yellowness) values slightly increased. In the sensory evaluation, samples with higher amount of puffed rice and glutinous rice scored higher for brown color, flavor and sweetness than high-content rice samples. The response surface and trace plot results showed that increasing of puffed rice increased the brown color, sweet taste and sticky aftertaste. From the results of the F-test, viscosity, "a" (redness) and "b" (yellowness) values fit a quadratic model with significant probabilities within 0.05%. The optimum predicted formulations of rice gruel containing puffed rice were 1.69% of puffed rice, 0.47% of glutinous rice and 9.84% of rice, respectively.

Keywords

References

  1. AOAC (1990a) Official method of analysis. 15th ed. Method 940.28 Chapter 41, p. 10 Association of Official Analytical Chemist, Washington DC. chapter 41, p 10.
  2. AOAC (1990b) Official method of analysis. 15th ed. Method 985.29 Chapter 45, p. 70. Association of Official Analytical Chemist, Washington DC. chapter 45, p 70.
  3. AOAC (1990c) Official method of analysis. 15th ed. Method Method 934.01 Association of Official Analytical Chemist, Washington DC. chapter 4, p 1.
  4. Fu BX, Kovacs MIP, Wang C (1998) A simple wheat flour swelling test. Cereal Chem 75: 566-567. https://doi.org/10.1094/CCHEM.1998.75.4.566
  5. Ha JO, Lee SC, Bac HD, Park OP (2004) Food chemistry. Dooyangsa, Seoul. pp 218-344.
  6. Han SH, Choi EJ, Oh MS (2000) A comparative study on cooking qualities of imported and domestic rices. Korean J Soc Food Sci 16: 91-97.
  7. Hong YH, Ahn HS, Lee SK, Jun SK (1998) Relationship of properties of rice texture of Japonica and Indica cooked rice. Korean J Food Sci Technol 20: 59-62.
  8. Hutchings JS (1994) Instrumental specification. In Food colour and appearance. Blackie Academic & Professional, Bedford. pp 217-223.
  9. Hwang IG, Yang JW, Kim JY, Yoo SM, Kim GC, Kim JS (2011) Quality characteristics of saccharified rice gruel prepared with different cereal koji. J Korean Soc Food Sci Nutr 40: 1611-1622.
  10. Jeong HS, Min YK, Toledo RT (2001) Effects of low temperature extrusion method on the physical properties and cell structure of pre-gelatinized rice flour extrudate. Food Engineering Progress 6: 145-151.
  11. Juliano BO (1971) A simplified assay for milled rice amylase. Cereal Science Today 15: 334-338.
  12. Kim YB, Hah DM, Kim CS (1990a) Milling characteristics and qualities of Korean rice. Korean J Food Sci Technol 22: 199-205.
  13. Kim MS, Yoon IH, Oh YT, Jang CM, Yoon SM (1990b) Manufacturing machine and method of puffed grain powder. Korea Patent 008240.
  14. Kim MS, Shin JI, Lee PS (1994) Producing method of takju using puffed rice powder. Korean Patent 0010859.
  15. Kim JY, Sung KW, Bae HW, Yi YH (2007) pH, acidity, reducing sugar, total sugar, alcohol and organoleptic characteristics of puffed rice powder added takju during fermentation. Korean J Food Sci Technol 39: 266-271.
  16. Kim JW, Sung KH (2010) A study on the quality characteristics of kiwi fruit-gruel with added kiwi concentrate. J East Asian Soc Dietary Life 20: 313-320.
  17. Kim HR, Kwon YH, Kim JH, Ahn BH (2011) Quality analysis of diverse rice species for rice products. Korean J Food Sci Technol 43: 142-148.
  18. Lee GD, Kim HG, Kim JG, Kwon JH (1997) Optimization for the preparation conditions of instant rice gruel using oyster mushroom and brown rice. Korean J Food Sci Technol 29: 734-744.
  19. Lee HJ, Jurn JI (2000) Research of kinds of rice porridges and recipes of it. Korean J Food & Nutr 13: 281-290.
  20. Lee KA, Shin ES, Lee HK, Kim MJ, Byun MW, Lee JW, Kim JH, Ahn DH, Lyun ES (2008) Quality characteristics of abalone porridge with viscera. J Korean Soc Food Sci Nutr 37: 103-108. https://doi.org/10.3746/jkfn.2008.37.1.103
  21. Lee YS, Ha JK, Lee ES (2008) Optimization of peel adhesion of acrylic pressure sensitive adhesive using design of experiments. J Adhesion and Interface 9: 22-27.
  22. Lee MJ, Kim YK, Seo JW, Kim JG, Kim HS (2009) Cooking and pasting characteristics of non waxy and waxy pearled barley products from Korea. Korean J Food Preserv 16: 661-668.
  23. Lee MK, Park JS, Na HS (2010) Physicochemical properties of Olbyossal. Korean J Food Preserv 17: 208-213.
  24. Lee KC, Kim YS, Ryu GH (2011) Saccarification characteristics of extruded corn starch at different process parameter. Food Engineering Progress 15: 155-161.
  25. Meilgaard M, Civille GV., Carr BT (1991) Sensory evaluation techniques. 2nd ed. CRC press, Boca Raton. p 53.
  26. Ministry for Food and Agriculture (2012) Forestry and Fisheries. Food Policy Food Journal. p 40.
  27. Moon GS, Kim MJ, Jin MH, Kim SY, Park SY, Ryu BM (2010) Physicochemical and sensory properties of rice stored in a unused tunnel. Korean J Food Cookery Sci 26: 220-228.
  28. National Tax Service Technical Service Institute (2005) Manufacturing guideline of takju and yakju. Seoul, Korea. pp. 31, 53-54, 195-196.
  29. Park HJ, Ahn TK (2007) A method for manufacturing rice flour having good rheological and sensory characteristics, rice flour produced by the same method and instant rice soup comprising the rice flour. Korea Patent 0757665.
  30. Singh V, Okadome H, Toyoshima H, Isobe S, Ohtsubo K (2000) Thermal and physicochemical properties of rice grain, flour and starch. J Agric Food Chem 48: 2639-2647. https://doi.org/10.1021/jf990374f
  31. Son JR, Kim JH, Lee JI, Youn YH, Kim JK, Hwang HG, Moon HP (2002) Trend and further research. Korean J Crop Aci 47: 33-54.
  32. Statistics Korea (2012) 2012 rice production survey, Press release, 2012. 11. 19
  33. Tie J, Kim MH, Ryu HJ, Lee KH, Han MS, Cho SS, Lee HK, Ryu GH (2008) Quality characteristics of rice cake (injulmi) made with traditional process and instant injulmi mcahine and different steeping time. Food Engineering Progress 12: 97-106.
  34. Valdez-Nielba JA, Paredes-Lopez O, Varga-Lopez JM, Hernandez-Lopez D (1992) Moisture sorption isotherms and other physicochemical properties of nixtamilized amaranth flour. Food Chem 46: 19-23.
  35. Won JG, Ahn DJ, Kim SJ, Park SD, Choi KB, Lee SC, Son JK (2005) Comparison of grain quality between Chinese parboiled and domestic rice. Korean J Crop Sci 50: 19-23.
  36. Yoon SJ, Hawer WD (2008) A study on calorie and proximate components of traditional Korea gruel. J Korean Soc Food Sci Nutr 37: 879-885.