Industrial yogurt manufacture: monitoring of fermentation process and improvement of final product quality.

Lactic acid fermentation during the production of skim milk and whole fat set-style yogurt was continuously monitored by measuring pH. The modified Gompertz model was successfully applied to describe the pH decline and viscosity development during the fermentation process. The viscosity and incubation time data were also fitted to linear models against ln(pH). The investigation of the yogurt quality improvement practices included 2 different heat treatments (80 degrees C for 30 min and 95 degrees C for 10 min), 3 milk protein fortifying agents (skim milk powder, whey powder, and milk protein concentrate) added at 2.0%, and 4 hydrocolloids (kappa-carrageenan, xanthan, guar gum, and pectin) added at 0.01% to whole fat and skim yogurts. Heat treatment significantly affected viscosity and acetaldehyde development without influencing incubation time and acidity. The addition of whey powder shortened the incubation time but had a detrimental effect on consistency, firmness, and overall acceptance of yogurts. On the other hand, addition of skim milk powder improved the textural quality and decreased the vulnerability of yogurts to syneresis. Anionic stabilizers (kappa-carrageenan and pectin) had a poor effect on the texture and palatability of yogurts. However, neutral gums (xanthan and guar gum) improved texture and prevented the wheying-off defect. Skim milk yogurts exhibited longer incubation times and higher viscosities, whereas they were rated higher during sensory evaluation than whole fat yogurts.

[1]  L. Amigo,et al.  Influence of skimmed milk concentrate replacement by dry dairy products in a low‐fat set‐type yoghurt model system. Use of caseinates, co‐precipitate and blended dairy powders , 2000 .

[2]  A. Law Effects of heat treatment and acidification on the dissociation of bovine casein micelles , 1996, Journal of Dairy Research.

[3]  P. Hansen Food Hydrocolloids in the Dairy Industry , 1994 .

[4]  Harjinder Singh,et al.  Rheological properties at small (dynamic) and large (yield) deformations of acid gels made from heated milk , 1997, Journal of Dairy Research.

[5]  J. Mottar,et al.  Effect of Heat-Induced Association of Whey Proteins and Casein Micelles on Yogurt Texture , 1989 .

[6]  Basim Abu-Jdayil,et al.  Rheological properties of plain yogurt during coagulation process: impact of fat content and preheat treatment of milk , 2000 .

[7]  Y. H. Hui,et al.  Dairy Science and Technology Handbook , 1993 .

[8]  Harjinder Singh,et al.  Effects of heat treatment and whey protein addition on the rheological properties and structure of acid skim milk gels , 1999 .

[9]  N. Shah,et al.  Effects of ingredients supplementation on textural characteristics and microstructure of yoghurt , 2002 .

[10]  J. K. Palmer,et al.  Apparent Viscosity of Milk and Cultured Yogurt Thermally Treated by UHT and Vat Systems. , 1981, Journal of food protection.

[11]  J. deMan,et al.  Gelation Profiles of Yogurt as Affected by Heat Treatment of Milk , 1988 .

[12]  A. Imeson,et al.  Thickening and gelling agents for food , 1992 .

[13]  S. Fiszman,et al.  Textural and sensory characteristics of whole and skimmed flavored set-type yogurt during long storage. , 2004, Journal of dairy science.

[14]  R. Linforth,et al.  Altering the fat content affects flavor release in a model yogurt system. , 1999, Journal of agricultural and food chemistry.

[15]  M. N. Oliveira,et al.  Optimization of yogurt production using demineralized whey , 1997 .

[16]  R. Richter,et al.  Influence of Guar Gum on the Distribution of Some Flavor Compounds in Acidified Milk Products , 1996 .

[17]  C. G. D. Kruif,et al.  Effects of carrageenan type on the behaviour of carrageenan/milk mixtures , 2000 .

[18]  L. Amigo,et al.  Influence of skimmed milk concentrate replacement by dry dairy products in a low fat set‐type yoghurt model system. I: Use of whey protein concentrates, milk protein concentrates and skimmed milk powder , 1999 .

[19]  Harjinder Singh,et al.  Formation and physical properties of acid milk gels: a review , 1997 .

[20]  D. Everett,et al.  Interactions of polysaccharide stabilisers with casein aggregates in stirred skim-milk yoghurt , 2005 .

[21]  D. Froehlich,et al.  Physical and Sensory Properties of Yogurt Stabilized with Milk Proteins , 1983 .

[22]  B. O'kennedy,et al.  Rheology of Stirred Yogurt as Affected by Added Milk Fat, Protein and Hydrocolloids , 1998 .

[23]  A. Kelly,et al.  Mouthfeel and flavour of fermented whey with added hydrocolloids , 2007 .

[24]  A. E. Labropoulos,et al.  Effects of Ultra-High Temperature and Vat Processes on Heat-Induced Rheological Properties of Yogurt , 1984 .

[25]  J. deMan,et al.  Influence of Heat Treatment of Milk on the Flow Properties of Yoghurt , 1986 .

[26]  A. Pilosof,et al.  κ -Carrageenan—Protein Interactions: Effect of Proteins on Polysaccharide Gelling and Textural Properties , 2002 .

[27]  西成 勝好,et al.  Food hydrocolloids : structures, properties, and functions , 1993 .

[28]  Douglas G. Dalgleish,et al.  Kappa-carrageenan interactions in systems containing casein micelles and polysaccharide stabilizers , 2005 .

[29]  Eric Latrille,et al.  INFLUENCE OF FERMENTATION AND STORAGE CONDITIONS ON THE SENSORY PROPERTIES OF PLAIN LOW FAT STIRRED YOGURTS , 1999 .

[30]  E. El-Sayed,et al.  Utilization of laboratory-produced xanthan gum in the manufacture of yogurt and soy yogurt , 2002 .

[31]  Carl-Fredrik Mandenius,et al.  Sensor fusion for on-line monitoring of yoghurt fermentation. , 2002, Journal of biotechnology.

[32]  T. Janzen,et al.  Microstructure and rheology of yogurt made with cultures differing only in their ability to produce exopolysaccharides. , 2003, Journal of dairy science.

[33]  R. I. Dave,et al.  The influence of ingredient supplementation on the textural characteristics of yogurt , 1998 .

[34]  M. Augustin,et al.  Structure and visco-elastic properties of set yoghurt with altered casein to whey protein ratios , 2002 .

[35]  H. Ramaswamy,et al.  Pectin and raspberry concentrate effects on the rheology of stirred commercial yogurt , 1992 .

[36]  M. Kaláb,et al.  Milk-gel structure. IV. Microstructure of yoghurts in relation to the presence of thickening agents , 1975, Journal of Dairy Research.

[37]  S. Fiszman,et al.  Effect of gelatine on the texture of yoghurt and of acid-heat-induced milk gels , 1999 .

[38]  C. Tzia,et al.  Influence of processing of solids-fortified milk on coagulation time and quality properties of yogurt , 1993 .

[39]  Carl-Fredrik Mandenius,et al.  On-line multisensor monitoring of yogurt and filmjölk fermentations on production scale. , 2004, Journal of agricultural and food chemistry.

[40]  G. M. Trout,et al.  The sensory evaluation of dairy products , 1988 .

[41]  A. Y. Tamime,et al.  Yoghurt: Science and technology , 1985 .

[42]  Josse De Baerdemaeker,et al.  Effects of process conditions on the pH development during yogurt fermentation , 1999 .

[43]  Susana Fiszman,et al.  Effect of addition of gelatin on microstructure of acidic milk gels and yoghurt and on their rheological properties , 1999 .

[44]  H. Mishra,et al.  Mango soy fortified set yoghurt: effect of stabilizer addition on physicochemical, sensory and textural properties , 2004 .