Functional Properties of Re-fabricated Rice as Affected by Die During Extrusion Process
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Syed Zameer Hussain
and
Baljit Singh
Abstract
In order to obtain re-fabricated rice with properties similar to natural rice, a special cutter and six dies were designed and evaluated. All the dimensional and physical properties of re-fabricated rice were significantly affected by die type. The average values of all the properties studied increased with the increase in moisture content (from 10 to 14%), except length/breadth ratio and porosity which decreased with the increase in moisture content. Based on the dimensional and physical properties, the re-fabricated rice obtained through die IV (8 × 1.5 mm) was in close resemblance to natural rice (PR-116). In general, uncooked and cooked re-fabricated rice grains showed significantly harder and firm texture in comparison to natural rice. Furthermore, significant differences were observed with respect to colour, whiteness and translucence between re-fabricated rice samples and natural rice. Sensory evaluation data revealed significant decrease in oral tenderness and adhesiveness in re-fabricated rice against natural rice. The study demonstrated that appropriate design of extrusion die is determinant factor for developing re-fabricated rice with properties similar to natural rice.
References
1. HarperJM. Extrusion processing of foods. Food Technol1978;32:67–72.Search in Google Scholar
2. LeszekM, DickJV. Extrusion-cooking and relatedtechnique. Extrusion-cooking: applications, theory andsustainability. Weinheim: Wiley-VCH Verlag Gmbh & Co. KGaA, 2011:1–24.Search in Google Scholar
3. ChinnaswamyR, HannaMA. Optimum extrusion cooking conditions for maximum expansion of corn starch. J Food Sci1988;53:834–40.10.1111/j.1365-2621.1988.tb08965.xSearch in Google Scholar
4. JulianoBO. Rice in human nutrition. FAO/IRRI. FAO Food and Nutrition Series No. 26, FAO, Rome, 1993.Search in Google Scholar
5. BustosMF, DelgadoLL, VictorioMG. Characterisation of brown and milled yellow rice and development of an expanded snack. J Sci Food Agric1996;72:148–54.10.1002/(SICI)1097-0010(199610)72:2<148::AID-JSFA607>3.0.CO;2-XSearch in Google Scholar
6. MariottiM, AlampreseC, PaganiMA, LucisanoM. Effect of puffing on ultrastructure and physical characteristics of cereal grains and flours. J Cereal Sci2006;73:47–56.10.1016/j.jcs.2005.06.007Search in Google Scholar
7. KumarN, SarkarBC, SharmaHK. Development and characterisation of extruded products of carrot pomace, rice flour and pulse powder. Am J Food Sci2010;4:710–17.Search in Google Scholar
8. Woei-ShyongL, HsuehYH. Experimental study on extrudate swell and die geometry of profile extrusion. J Polym Eng Sci2000;40:1085–94.10.1002/pen.11236Search in Google Scholar
9. HarperJM. Extrusion models. In: HarperJM, editor. Extrusion of foods, vol. I, chap. 4. Boca Raton, FL: CRC Press, 1981.Search in Google Scholar
10. SmithA. Cooker extruder die design – some fundamentals. Food Trade Rev1986;56:6–12.Search in Google Scholar
11. HolaySH, HarperJM. Influence of shear environment on plant protein texturization. J Food Sci1982;47:1869–74.10.1111/j.1365-2621.1982.tb12902.xSearch in Google Scholar
12. BhattacharyaM, HannaMA. Modeling selected textural properties of extrusion cooked corn starch. Trans ASAE1988;31:1576–80.10.13031/2013.30902Search in Google Scholar
13. KumarA, BhattacharyaM, PadmanabhanM. Modeling flow in cylindrical extruder dies. J Food Sci1989;54:1584–9.10.1111/j.1365-2621.1989.tb05165.xSearch in Google Scholar
14. LiY, DiosadyL, JankowskiS. Antioxidant system for the preservation of vitamin A in ultra rice. Food Nutr Bull2009;30:82–9.10.1177/156482650903000109Search in Google Scholar
15. AACC. Approved methods of American association of cereal chemists, 10th ed. St. Paul, MN: The Association, 2000.Search in Google Scholar
16. SyedZH, BaljitS. Effect of extrusion conditions on pasting behavior and micro-structure of re-fabricated rice: a response surface analysis. Cereal Chem2013;90:480–9.10.1094/CCHEM-12-12-0170-RSearch in Google Scholar
17. Anonymous. Standard evaluation system, 4th ed. INGER Genetic Resources Centre. Philippines: IRRI, 1996.Search in Google Scholar
18. ZareiforoushH, HosseinzadehB, AdabiME, MotavaliA. Moisture-dependent physical properties of paddy grains. J Am Sci2011;7:175–82.Search in Google Scholar
19. GarnayakDK, PradhanRC, NaikSN, BhatnagarN. Moisture-dependent physical properties of jatropha seed (Jatropha curcas L.). Ind Crops Prod2008;27:123–9.10.1016/j.indcrop.2007.09.001Search in Google Scholar
20. LambertsL, De BieE, DeryckeV, VeraverbekeWS,De ManW, DelcourJA. Effect of processing conditions on colour change of brown and milled parboiled rice. Cereal Chem2006;83:80–5.10.1094/CC-83-0080Search in Google Scholar
21. GoodmanDE, RaoRM. Effect of grain type and milled rice kernel hardness on the head rice yields. J. Food Sci1985;50:840–2.10.1111/j.1365-2621.1985.tb13811.xSearch in Google Scholar
22. CagampangGB, PerezCM, JulianoBO. A gel consistency test for eating quality of rice. J Sci Food Agric1973;24:589–94.10.1002/jsfa.2740241214Search in Google Scholar
23. JulianoBO, BechtelDB. The rice grain and its gross composition. In: JulianoBO, editor. Rice chemistry and technology. St. Paul, MN: American Association of Cereal Chemists, 1985:17–50.Search in Google Scholar
24. KohlweyDF. New methods for the evaluation of rice quality and related terminology. In: MarshallWE, WadsworthJI, editors. Rice science and technology. New York: Marcel Dekker, 1994.Search in Google Scholar
25. IrajB, MohammadBD, SeyedHP, HemadZ. Moisture-dependent physical properties of 12 varieties of rough rice (Oryza sativa L.) grain. New York Sci J2011;4:63–73.Search in Google Scholar
26. BalS, MishraHN. Engineering properties of soybean. In: Proceedings of the national seminar on soybean processing and utilization in India, 1988:146–65.Search in Google Scholar
27. KingslyAR, SinghDB, ManikantanMR, JainRK. Moisture dependent physical properties of dried pomegranate seeds (Anardana). J Food Eng2006;75:492–6.10.1016/j.jfoodeng.2005.04.033Search in Google Scholar
28. HardeepSG, JaswantS, NavdeepSS, NarpinderS. Effect of milling variables on the degree of milling of unparboiled and parboiled rice. Int J Food Prop2002;5:193–4.10.1081/JFP-120015601Search in Google Scholar
29. MilesMJ, MorrisVJ, OrfordPD, RingSG. The roles of amylose and amylopectin in the relation and retrogradation of starch. Carbohydr Res1985;135:271–81.10.1016/S0008-6215(00)90778-XSearch in Google Scholar
30. LeeMH, HettiarachchyNS, McnewRW, GnanasambandamR. Physicochemical properties of calcium-fortified rice. Cereal Chem1995;72:352–5.Search in Google Scholar
31. HermanssonAM, SvegmarkK. Developments in the understanding of starch functionality. Trends Food Sci Technol1996;7:345–53.10.1016/S0924-2244(96)10036-4Search in Google Scholar
32. EliassonAC. Viscoelastic behaviour during the gelatinization of starch. J Texture Stud1986;17:253–65.10.1111/j.1745-4603.1986.tb00551.xSearch in Google Scholar
33. HelbigE, DiasA, TavaresR, SchirmerM, EliasM. The effect of parboiled rice on glycemia in wistar rats. Arch Latinoam Nutr2008;58:149–55.Search in Google Scholar
34. SharpRN, SharpCQ. Food applications for modified rice starches. In: Marshall WE, Wadsworth JI. Rice science and technology. New York: Marcel Dekker, 1994.Search in Google Scholar
35. IslamMR, ShimizuN, KimuraT. Energy requirement in parboiling and its relationship to some important quality indicators. J Food Eng2003;63:433–9.10.1016/j.jfoodeng.2003.09.002Search in Google Scholar
36. AliSZ, BhattacharyaKR. Hydration and amylase solubility behaviour of parboiled rice. Lebenson Wiss Technol1991;5:207–12.Search in Google Scholar
37. AgidiG, SolomonMD, JosephCI. Water absorption behavior of milled parboiled rice in relationship with variety and some basic thermodynamic properties of steam. AU J Technol2009;13:101–6.Search in Google Scholar
©2014 by De Gruyter
Articles in the same Issue
- Frontmatter
- Grinding Characteristics of Black Soybeans (Glycine max) at Varied Moisture Contents: Particle Size, Energy Consumption, and Grinding Kinetics
- Design and Development of Low-Cost Makhana Grading and Roasting Machine
- Investigation of Consecutive Fouling and Cleaning Cycles of Ultrafiltration Membranes Used for Whey Processing
- Kinetic Models of Evaporation and Total Phenolics Degradation during Pomegranate Juice Concentration
- Predicting Sorption Isotherms and Net Isosteric Heats of Sorption of Maize Grains at Different Temperatures
- Estimating Some Physical Properties of Sour and Sweet Cherries Based on Combined Image Processing and AI Techniques
- Functional Properties of Re-fabricated Rice as Affected by Die During Extrusion Process
- Isolation and Characterization of Corncob Cellulose Fibers using Microwave-Assisted Chemical Treatments
- Physical Properties of Red Guava (Psidium guajava L.) Pulp as Affected by Soluble Solids Content and Temperature
- Levels of Fluoride in the Ethiopian and Imported Black Tea (Camellia sinensis) Infusions Prepared in Tap and Fluoride-Rich Natural Waters
- Process Optimization and Quality Analysis of Carambola (Averrhoa carambola L.) Wine
- Physical Properties of Gluten-Free Bread Made of Corn and Chickpea Flour
- In Vitro Anti-tumor Effects of Chemically Modified Polysaccharides from Cherokee Rose Fruit
- Optimization of Ohmic Heating of Fish Using Response Surface Methodology
- Response Surface Modeling for Optimization of Textural and Color Characteristics of Dried Grapes
- Response Surface Analysis for Preparation of Modified Flours using Twin Screw Extrusion Cooking
- Modeling the Effects of the Quantity and Particle Size of Wheat Bran on Some Properties of Bread Dough using Response Surface Methodology
- Testing of a Condensation-type Heat Pump System for Low-temperature Drying Applications
- Comparison of Chemical, Textural and Organoleptic Properties of Pastry Sheets with Two Different Additives
Articles in the same Issue
- Frontmatter
- Grinding Characteristics of Black Soybeans (Glycine max) at Varied Moisture Contents: Particle Size, Energy Consumption, and Grinding Kinetics
- Design and Development of Low-Cost Makhana Grading and Roasting Machine
- Investigation of Consecutive Fouling and Cleaning Cycles of Ultrafiltration Membranes Used for Whey Processing
- Kinetic Models of Evaporation and Total Phenolics Degradation during Pomegranate Juice Concentration
- Predicting Sorption Isotherms and Net Isosteric Heats of Sorption of Maize Grains at Different Temperatures
- Estimating Some Physical Properties of Sour and Sweet Cherries Based on Combined Image Processing and AI Techniques
- Functional Properties of Re-fabricated Rice as Affected by Die During Extrusion Process
- Isolation and Characterization of Corncob Cellulose Fibers using Microwave-Assisted Chemical Treatments
- Physical Properties of Red Guava (Psidium guajava L.) Pulp as Affected by Soluble Solids Content and Temperature
- Levels of Fluoride in the Ethiopian and Imported Black Tea (Camellia sinensis) Infusions Prepared in Tap and Fluoride-Rich Natural Waters
- Process Optimization and Quality Analysis of Carambola (Averrhoa carambola L.) Wine
- Physical Properties of Gluten-Free Bread Made of Corn and Chickpea Flour
- In Vitro Anti-tumor Effects of Chemically Modified Polysaccharides from Cherokee Rose Fruit
- Optimization of Ohmic Heating of Fish Using Response Surface Methodology
- Response Surface Modeling for Optimization of Textural and Color Characteristics of Dried Grapes
- Response Surface Analysis for Preparation of Modified Flours using Twin Screw Extrusion Cooking
- Modeling the Effects of the Quantity and Particle Size of Wheat Bran on Some Properties of Bread Dough using Response Surface Methodology
- Testing of a Condensation-type Heat Pump System for Low-temperature Drying Applications
- Comparison of Chemical, Textural and Organoleptic Properties of Pastry Sheets with Two Different Additives
