Development of Extruded Snacks Using Maize, Soy, Apple Pomace - A Response Surface Methodology Approach

Shahzad Faisal; Indra Mani; Ram Kishor Gupta; Mridula D; Sunil Kumar Jha; Baljit Singh

doi:10.52151/jae2018553.1658

Authors

Shahzad Faisal Division of Agricultural Engineering, ICAR- IARI, New Delhi Author
Indra Mani Division of Agricultural Engineering, ICAR- IARI, New Delhi Author
Ram Kishor Gupta ICAR- CIPHET, Ludhiana Author
Mridula D ICAR- CIPHET, Ludhiana Author
Sunil Kumar Jha FS&PHT, ICAR- IARI, New Delhi Author
Baljit Singh Division of Food Science and Technology, PAU, Ludhiana. Author

DOI:

https://doi.org/10.52151/jae2018553.1658

Keywords:

Extruded snack, maize, soy, apple pomace, RSM

Abstract

Response surface methodology (RSM) using a D-optimal mixture design was employed for optimisation of formulation for production of a maize-soy-apple pomace based extruded snack. Effects of ingredients levels as maize (50–70 %), defatted soy flour (10–30 %) and apple pomace (10–30 %) on the physical properties like bulk density, expansion ratio, colour, water absorption index and water solubility index, sensory and specific mechanical energy of snacks were investigated. Significant regression equations that explained the effects of different percentages of maize, soy and apple pomace on all response variables were determined. The coefficients of determination, R2 , of all response variables were higher than 0.90. Adequate precision for developed model of all responses was higher than 9.0, and corresponding CV was less than 1.9 per cent. Based on the given criteria for optimisation, the basic formulation for production of maize-soy-apple pomace extruded snack with desired sensory quality was obtained by incorporating with 70.0 % maize, 14.57 % soy and 15.43 % apple pomace.

Author Biographies

Shahzad Faisal, Division of Agricultural Engineering, ICAR- IARI, New Delhi

Ph.D. Scholar,
Indra Mani, Division of Agricultural Engineering, ICAR- IARI, New Delhi

Head & Principal Scientist
Ram Kishor Gupta, ICAR- CIPHET, Ludhiana

Director
Mridula D, ICAR- CIPHET, Ludhiana

Senior Scientist,
Sunil Kumar Jha, FS&PHT, ICAR- IARI, New Delhi

Principal Scientist,
Baljit Singh, Division of Food Science and Technology, PAU, Ludhiana.

Baking Technologist,

References

Anderson R A; Conway H F; Griffin E L. 1969. Gelatinization of corn grits by roll and extrusion cooking. Cereal Sci. Today, 1, 4–12.

AOAC. 1997. Official Methods of Analysis, Association of Official Analytical Chemists, XV Ed., Washington DC, 2–32.

Armbrister W L; Sester C S. 1994. Sensory and physical properties of chocolate chip cookies made with vegetable shortening or fat replacer at 50 and 75% levels. Cereal Chem., 7 (4), 344-351.

Balasubramanian S; Singh K K; Patil R T; Onkar K K. 2011. Quality evaluation of millet-soy blended extrudates formulated through linear programming. J. Food Sci. Technol., 49 (4), 450–458.

Balasubramanian S; Borah A; Singh K K; Patil R T. 2012. Effect of selected dehulled legume incorporation on functional and nutritional properties of protein enriched sorghum and wheat extrudates. J. Food Sci. Technol., 49, 572–579.

Bhattacharya S. 1997. Twin-screw extrusion of rice-green gram blend: Extrusion and extrudate characteristics. J. Food Eng., 32, 83–99.

Chakraborty S K; Singh D S; Chakraborty S. 2009. Extrusion: A novel technology for manufacture of nutritious snack foods. J. Beverage Food World, 42, 23–26.

Faisal S. 2017. Development of extruded maize-soy-apple pomace snack food. Unpublished Ph.D. thesis submitted to Indian Agricultural Research Institute, New Delhi.

Figuerola F; Hurtado M L; Estevez A M; Chiffelle I; Asenjo F. 2005. Fibre concentrates from apple pomace and citrus peel as potential fibre sources for food enrichment. Food Chem., 91, 395-401.

Gan H E; Karim R; Muhammad S K S; Bakar J A; Hashim D M; Rahman R Abd. 2007. Optimization of the basic formulation of a traditional baked cassava cake using response surface methodology. Lebensmittel-Wissenschaft und-Technologie, 40, 611–618.

Hsiang W C; Jin C P; Shwu J T; Jyh R T; Wai B L. 2013. Process optimization by response surface methodology and characteristics investigation of corn extrudate fortified with yam (Dioscorea alata L.). Food Bioprocess Technol., 6, 1494–1504.

Hussain S Z; Singh B; Rather A H. 2014. Efficacy of miocro-nutrient fortified extruded rice in improving the iron and vitamin A status in Indian school children. Int. J. Agric. Food Sci. Technol., 5 (3), 227-238.

Jin Z; Hsieh F; Huff H E. 1995. Effects of soy fiber, salt, sugar and screw speed on physical properties and microstructure of corn meal extrudates. J. Cereal Sci., 22, 185–194.

Mahasukhonthachat K; Sopade P A; Gidley M J. 2010. Kinetics of starch digestion and functional properties of twin-screw extruded sorghum. J. Cereal Sci., 51, 392–401.

Mahawar M; Singh Anupama; Jalgaonkar Kirti. 2012. Utility of apple pomace as a substrate for various products: A review. Food Bioprod. Process., 90, 597–605.

Manimehalai N. 2007. Fruit and waste utilization. Beverage Food World, 34 (11), 53–54, 56.

Mason W R; Hoseney R C. 1986. Factors affecting the viscosity of extrusion-cooked wheat starch. Cereal Chem., 63, 436–441.

McKee L H; Latner T A. 2000. Underutilized sources of dietary fiber: A review. Plant Foods Human Nutr., 55, 285-304.

Meng X; Threinen D; Hansen M; Driedger D. 2010. Effects of extrusion conditions on system parameters and physical properties of a chickpea flourbased snack. Food Res. Inter., 43, 650–658.

Myers R H; Montgomery D C. 2002. Response Surface Methodology. Wiley-Interscience, New York.

Nawirska A; Kwaśniewska M. 2005. Dietary fibre fractions from fruit and vegetable processing waste. Food Chem., 91, 221-225.

Normell J E; de-Mesa; Sajid A; Narpinder S; Yong-Cheng S; Hulya D; Yijun S. 2009. Soy protein-fortified expanded extrudates: baseline study using normal corn starch. J. Food Eng., 90, 262–270.

Pai D A; Blake O A; Hamaker B R; Campanella O H. 2009. Importance of extensional rheological properties on fiber-enriched corn extrudates. J. Cereal Sci., 50, 227–234.

Pansawat N; Jangchud K; Jangchud A; Wuttijumnong P; Saalia F K; Eitenmiller R R. 2008. Effects of extrusion conditions on secondary extrusion variables and physical properties of fish, rice-based snacks. Lebensm. Wiss. Technol., 41, 632–641.

Patil R T; Berrios J; Dej Tang J; Swanson B G. 2007. Evaluation of methods for expansion properties of legume extrudates. Appl. Eng. Agric., 23,777–783.

Rohit Rawal; Dorcus Masih. 2014. Study of the effect on the quality attributes of apple pomace powder prepared by two different dryers. IOSR J. Agric. Vet. Sci., 7 (8), 54-61.

Roopa S; Premavalli K S. 2008. Effect of processing on starch fractions in different varieties of finger millet. Food Chem., 106, 875–882.

Shah G H; Masoodi F A. 1994. Studies on the utilization of wastes from apple processing plants. Indian Food Packer, 48 (5), 47–52.

Shannon D; Robert H N; Tyler T. 2010. Effect of protein, moisture content and barrel temperature on the physicochemical characteristics of pea flour extrudates. Food Res. Int., 43, 659–663.

Stojceska V; Ainsworth P; Plunkett A; Ibanoglu E; Ibanoglu S. 2008. Cauliflower by-products as a new source of dietary fibre, antioxidants and proteins in cereal based ready-to-eat expanded snacks. J. Food Eng., 87, 554–563.

Sudha M L ; Baskaran V; Leelavathi K. 2007. Apple pomace as a source of dietary fiber and polyphenols and its effect on the rheological characteristics and cake making. Food Chem., 104 (2), 686-692.

Thymi S; Krokida M K; Papa A; Maroulis Z B. 2005. Structural properties of extruded corn starch. J. Food Eng., 68, 519–526.

Upadhyay A; Sharma H K; Sarkar B C. 2010. Optimization of carrot pomace powder incorporation on extruded product quality by response surface methodology. J. Food Qual., 33, 350-369.

Xiong R J A; Meullenet W Hankins; Chung W K. 2002. Relationship between sensory and instrumental hardness of commercial cheeses. J. Food Sci., 67(2), 877–883.

Yadav D N; Sharma G K. 2008. Optimization of soy-fortified instant upma mix ingredients using response surface methodology. J. Food Sci. Technol., 45, 56–60.

Yagci S; Gogus F. 2008. Response surface methodology for evaluation of physical and functional properties of extruded snack foods developed from food-by-products. J. Food Eng., 86, 122–132.

Yagci S; Gogus F. 2010. Response surface methodology for evaluation of physical and functional properties of extruded snack foods developed from food-by-products. J. Food Eng., 86, 122–132.

Yanniotis S; Petraki A; Soumpasi E. 2007. Effect of pectin and wheat fibers on quality attributes of extruded cornstarch. J. Food Eng., 80, 594–599.