Cheese Mix M

Total Page:16

File Type:pdf, Size:1020Kb

Cheese Mix M CHEESE MIX M Description of the product: Cheese Mix is a food preparation used in production of cheese analogue. It is particularly designed for the cheeses type Mozzarella analogue Chemical data Nutritional data Target Indicative Parameters Method Types (g/100g) of the product Method values values Energy g/100g (KJ/Kcal) 2340 / 560 Calculation Vegetable fat 43% FIL 1D/1996 Protids 30 Proteins 30% Dumas LECO Glucids total 13 Carbohydrates. 13% calculation Di-saccharides 6.5 Calculation Moisture 5% FIL 26 Poly–saccharides 6.5 Calculation Ashes 9% 2 hrs 530 °C Lipids total 43 — — — Saturated fatty acids 32 Calculation — — — Unsaturated fatty acids 11 Calculation — — — Trans. fatty acids <0.5 Calculation Physical data Cholesterol — Calculation Fibers — Calculation Parameters Indicative values Method Sel NaCl 2.5 Calculation Colour Creamy white Own reference — — Taste fresh Own reference — — — — — — — — — — Ingredients Microbiological data Vegetable fat, milk protein, whey, starch modified (E1422), salt, Average Max. E331, E330. Types Method values values Total plate count/g 10.000 <50.000 FIL 100B Important notice Yeast and moulds/g <50 <100 FIL 94B These values are given as piece of information. They aren't a guarantee of quality nor an analysis certificate. This product is Staphylococcus/g 50 <100 FIL 60A conform to the Directive 2007/61/CE and standard Codex 207-1999 (n=5,c=2,m=10, M=100) Salmonella/25g As the use of this product may change from one country to another Absent Absent FIL 93 B (n=5,c=0) please also refer to local legislation and laws. Enterobacteriacae/g <10 10 ISO 7402 This product can be used in Baby foods less than 6 months only (n=5,c=0) under the responsability of the infant formula manufacturer who has — — — — checked all quality parameters before production processing. — — — — SPECIFICATION SHEET : Cheese Mix M SP 21 Product reference : 133 Issued by : Commercial Department Date: 04/09/2014 Page 1 / 2 BHA BELGIUM S.A. – Rue Mitoyenne 897 – B-4840 WELKENRAEDT Tel. : +32(0) 87.789.220 - Fax : +32(0) 87.789.222 - E-mail : [email protected] Allergens Packaging according to the Directive EC 2000/13 and EC 2003/89 Weight 25 kg net Allergens details 1 2 3 Multiply paper bags with polythene liners. Food 1 = present in the product as ingredient Bags 2 = present in the factory and used on the same production line before and after a dry grade cleaning . 3 = present in the same storage hall Shutting Heat-sealed, crepe taped and sewed + = present, - = absent, ? = unknown Pallets Standard pallets , shrink-wrapped Milk protein + + + Dairy product and by-product + + + Labelling standard BHA or on request Eggs and by-products - - - Soya protein and by-products - - - Storage Soja oil - - - If stored under clean, cool<20°C, dry conditions (HR <65%), not Cereals containing gluten and by-products exposed to direct sunlights or strong odours and avoiding direct - Wheat , spelt wheat - - - contact with walls and floors, the product can be kept : - Rye - - - --- 24 months in unopened packaging - Barley - - - - Oat - - - Applications - Buckwheat - - - Production of cheese analogue. - Kamut - - - Recipe of basis: add a weight of water (considering condensates) , - Hybridised strains of these cereals - - - mix, bake at 83 °C, mechanic work (Stefan) and put in a mould Crustacea, molluscs and by-products - - - Maize - - - GMO Rice - - - This product does not contain any ingredient of GMO origin as Cocoa - - - mentioned in the EC regulation 1829/2003/CE on genetically modified food and feed and EC regulation No 1830/2003 concerning Yeast - - - the traceability and labelling of genetically modified organisms Pulses - - - (amending Directive 2001/18/EC) Nuts and by-products - - - Peanuts and by-products - - - Heavy metals / mycotoxin / dioxin Sesame and by-products - - - Materials comply with current European Legislation for maximum Mustard and by-products - - - permitted levels of heavy metals. Materials comply with Regulation Cinnamon - - - 2006/1881/EC* Vanilllin - - - Coriander - - - Pesticide Umbelliferae (aniseed, dill, caraway, chervil, - - - Materials comply with current European Legislation for maximum cumin, coriander, lavas, cicely) permitted levels of pesticides. Materials comply with Regulation Celeri and by-products - - - 2005/396/EC and 2006/178/EC. Lupin and by-products - - - Glutamate (E620-E625) - - - Ionisation / radiation Sulphite (E220-E227) - - - No irradiation treatments are applied to the materials or its Benzoïc acid and parabens E210 E219 - - - components. Sorbates (E200-E203) - - - BHA(E320) BHT (E321) - - - Metal detection Azurobine E122 - - - Sieving: step 1= 3 mm step 2 = 2 mm Aspartam E951 - - Metal detection on packed products: ferrous: 4,0 mm3 Azo-colours - - - Non ferrous: 4.5 mm3, Stainless: 5.0 mm3 Tartrazine (E102) - - - Saccharose - - - Custom code Fructose - - - 2106 9098 Azo dyes (E102, E110, E122, E123, E124, - - - E128, E129, E151, E154, E155) Sulfur dioxide and sulphites (E220 E228) at concentrations of less than 10 mg/kg or - - - 10 mg/liter expressed as SO2 SPECIFICATION SHEET : Cheese Mix M SP 21 Product reference : 133 Issued by : Commercial Department Date: 04/09/2014 Page 2 / 2 BHA BELGIUM S.A. – Rue Mitoyenne 897 – B-4840 WELKENRAEDT Tel. : +32(0) 87.789.220 - Fax : +32(0) 87.789.222 - E-mail : [email protected] .
Recommended publications
  • Meat and Cheese Analogues Towseef Wani, Quraazah A
    MEAT & CHEESE ANALOGUES Rashtriya Krishi Volume 8 Issue 2 December, 2013 13-17 Meat and cheese analogues Towseef Wani, Quraazah A. Amin and Nuzhat Quadir1 Division of Post Harvest Technology, Sher-e-Kashmir University of Agricultural Sciences and Technology, KASHMIR (J&K) INDIA 1P.G. Department of Food Technology, Institute of Home Science, University of Kashmir, KASHMIR (J&K) INDIA (Email: [email protected], [email protected]) Meat analogous: The extended products provide mixture of proteins and A meat analogue, also called meat substitute, mock other nutrients to the consumer’s, which are desirable from meat, faux meat, or imitation meat, approximates the nutrition point of view, and it also satisfies the consumer’s aesthetic qualities (primarily texture, flavor, and desire for meat particularly when they cannot afford the appearance) and/or chemical characteristics of specific costly meat. This is also an effective way to utilize other types of meat. Many analogues are soy-based e.g., Tofu, agriculture produce. The number of extenders could be tempeh. Generally, meat analogue is understood to mean very large and it was felt necessary to find an effective a food made from non-meats, sometimes without other method to select functionally compatible ones. Extended animal products such as dairy. The market for meat meats also in a way solve problems where a part of meat imitations includes vegetarians, vegans, non-vegetarians is replaced by other ingredients. Screening of ingredients, seeking to reduce their meat consumption for health or one at a time at arbitrary levels may take usually long time ethical reasons, and people following religious dietary laws, as well as the costly resources.
    [Show full text]
  • Manuscript Details
    Manuscript Details Manuscript number TIFS_2017_556_R1 Title STATUS AND DEVELOPMENTS IN ANALOGUE CHEESE FORMULATIONS AND FUNCTIONALITIES Article type Review Article Abstract Background: Analogue cheeses (AC) are homogeneous cheese-like matrices obtained by mixing water, oils/fats, proteins, emulsifying salts and other ingredients under heat and mechanical shear. These versatile products are used both directly for consumption and mainly indirectly as ingredients in several foods. Scope and approach: Increasing consumers' expectations, consumption habits, current lifestyles and cheese industry dynamism are factors driving the research towards the development of new cheese-like products and functionalities. This review describes the state of the art on AC formulations in relation to properties of the final product. Key findings and conclusions: Extensive data from research on AC highlight the current growing interest for the development of innovative functionalities to satisfy specific end-use applications. The outcomes of most investigations drew attention to the basic role of type and amount of ingredients to obtain a wide array of customized attributes. An insight on the role and the interactions among constituents of the formulation and the effect on textural, rheological, melting and sensory properties of AC was provided. Keywords Analogue cheese; Dry ingredients; Casein; Emulsifying salts; Functional properties. Manuscript region of origin Europe Corresponding Author MASOTTI FABIO Corresponding Author's Dipartimento di Scienze per gli
    [Show full text]
  • The Formulation of Cheese Analogue from Sweet Corn Extract
    Hindawi International Journal of Food Science Volume 2019, Article ID 8624835, 8 pages https://doi.org/10.1155/2019/8624835 Research Article The Formulation of Cheese Analogue from Sweet Corn Extract Nur Aini , Vincentius Prihananto, Budi Sustriawan, Didik Romadhon, and Riza N. Ramadhan Department of Food Science and Technology, Jenderal Soedirman University, Purwokerto, , Indonesia Correspondence should be addressed to Nur Aini; [email protected] Received 23 January 2019; Revised 16 March 2019; Accepted 24 March 2019; Published 2 May 2019 Academic Editor: Salam A. Ibrahim Copyright © 2019 Nur Aini et al. Tis is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Analogue cheese made from sweet corn extract was expected to fulfll the people’s need for cheese and as alternative cheese made from cow’s milk. Te use of maltodextrin as a fller and citric acid as an acidulant was expected to improve the characteristics of corn cheese. Te aims of this article were to (1) determine the optimum concentration of maltodextrin, papain, and citric acid in order to produce corn milk-based cheese analogue with the best characteristics; (2) determine the characteristics of cheese analogue produced using the optimum concentration. Te research design used in this study was Response Surface Methodology (RSM) based on Central Composite Design (CCD) with three factors: citric acid concentration (0.12%, 0.16%, and 0.20%), commercial papain (0.026%, 0.030%, and 0.034%), and maltodextrin (10%, 15%, and 20%).
    [Show full text]
  • Study on the Correlation Between the Protein Profile of Lupin Milk and Its Cheese Production Compared with Cow's Milk
    molecules Article Study on the Correlation between the Protein Profile of Lupin Milk and Its Cheese Production Compared with Cow’s Milk Nadia Al-Saedi 1,2,† , Manjree Agarwal 1,† , Shahidul Islam 1 and Yong-Lin Ren 1,* 1 College of Science, Health, Engineering and Education, Murdoch University, 90 South Street, Perth, WA 6150, Australia; [email protected] (N.A.-S.); [email protected] (M.A.); [email protected] (S.I.) 2 Department of Food Science and Biotechnology, Faculty of Agriculture, University of Baghdad, Baghdad 10071, Iraq * Correspondence: [email protected] † The authors contributed equally to this work. Abstract: Australian sweet lupin, the largest legume crop grown in Western Australia, is receiving global attention from the producers of new foods. To understand the effect of protein on cheese yield, lupin milk proteins were separated from the first, second, and third filtrations by cheesecloths. However, proteins from the first and second were analyzed using two-dimensional polyacrylamide gel electrophoresis; then, the isolated proteins associated with cheese production were identified. The research also focused on identifying the optimal method of cheese production based on the coagulation process, temperature, yield, and sensory evaluation. Lupin curds from the two cultivars, Mandelup and PBA Jurien, were produced using vinegar, lemon juice, starter culture, vegetable rennet enzyme as coagulant, as well as curd generated using starter culture and vegetable rennet enzyme. Cow’s milk was used as a control. The results indicated that first-time filtration produced Citation: Al-Saedi, N.; Agarwal, M.; better extraction and higher yield of lupin proteins and cheese than the second filtration.
    [Show full text]
  • Preparation of Non Dairy Cheese Analogue Enriched with Coconut Milk
    The Pharma Innovation Journal 2019; 8(10): 56-60 ISSN (E): 2277- 7695 ISSN (P): 2349-8242 NAAS Rating: 5.03 Preparation of non dairy cheese analogue enriched with TPI 2019; 8(10): 56-60 © 2019 TPI coconut milk www.thepharmajournal.com Received: 06-08-2019 Accepted: 10-09-2019 Kadbhane VS, Shelke GN and Thorat SL Kadbhane VS SRA, Dept. of Food Chemistry & Abstract Nutrition CFT, Ashti, On the basis of present study Non-dairy cheese analogue enriched with coconut milk made by using Maharashtra, India combination of Soya milk, coconut milk, rennet enzyme, salt, stabilizer-Sodium phosphate by addition of Preservative-Calcium propionate. The different sample made by different formulations as a blend of Shelke GN (Soya milk: Coconut milk) as (90:10, 80:20, 70:30, 60:40 and 50:50) The yield of non-dairy cheese Ph.D. Scolar, Dr. Annasaheb analogue was 27.9g, 26.60g, 25.80g, 24.27g and 22.06g per 100 ml respectively. Final product was Shinde CAE, MPKV, Rahuri, judged on the basis of best Appearance, Color, Flavor and Texture evaluated by the sensory evaluation Maharashtra, India method and their chemical Composition. Out of which Sample CA5 Formulation (50:50) Soya milk: coconut milk, Rennet enzyme-0.1%, Salt-1.5%, Stabilizer-0.5%, Preservative-1%) is most acceptable. Thorat SL Dept. of Chemical Engineering, This sample has moisture-52.34%, acidity-0.19%, Ash-1.72%, Protein-16.37%, Fat-27.10%, Crude fibre- ICT Mmbai, Maharashtra, India 0.55%. Keeping quality of that sample was determined as three days and after treatments (Raw, boiling in water) which was extended to seven days.
    [Show full text]
  • Stabilising Systems for Dairy Products
    Dairy products Texture Systems of Synergy Stabilising systems for dairy products Mouth feel Stability Cultured milk products, dips and spreads Cream and vegetable-based creams, puddings and desserts Cheese specialities, processed cheese, reconstituted products The market for dairy products is evolving - and so are our ideas. There is continuous demand for new dairy products. Markets are polarising, with growth driven by the low-price economy and high-price premium categories. Hydrosol monitors the international markets and has a mastery of the complex development processes of food systems. We see ourselves not just as a supplier of innovative Our Technology Centre near Hamburg, Germany – stabilising systems, but also as a source of ideas for a place for creativity and innovation new, trend-meeting products that become successful through close cooperation between us and our Our applications-oriented research and development team customers. Our growing team of food technologists combines passion, enthusiasm and curiosity. In 3000 square and experts works daily to develop combinations of meters of lab space, we create innovative product solutions individual ingredients into highly effective functional that improve our customers’ products or even make them possible systems for better food products. in the first place. In our applications laboratories for various food categories, nutrition technologists, process technicians and An exchange of ideas with customers in many industries scientists analyse, improve and develop new stabilising systems accompanies the process. Our long international for dairy, meat, deli and fish products. experience and expertise in the development of custom solutions underpins our position as a worldwide source Close proximity and frequent dialogue accelerate the creation of of first-class, application-specific stabilising and solutions that are a perfect fit, whose effectiveness we tailor exactly emulsifying systems.
    [Show full text]
  • Vegan Cheese Analogue Veganes Käseanalogon Analogue De Fromage Vegan
    (19) TZZ¥ _T (11) EP 3 422 865 B1 (12) EUROPEAN PATENT SPECIFICATION (45) Date of publication and mention (51) Int Cl.: of the grant of the patent: A23C 20/02 (2006.01) 19.06.2019 Bulletin 2019/25 (86) International application number: (21) Application number: 17715802.9 PCT/NL2017/050124 (22) Date of filing: 01.03.2017 (87) International publication number: WO 2017/150973 (08.09.2017 Gazette 2017/36) (54) VEGAN CHEESE ANALOGUE VEGANES KÄSEANALOGON ANALOGUE DE FROMAGE VEGAN (84) Designated Contracting States: (74) Representative: V.O. AL AT BE BG CH CY CZ DE DK EE ES FI FR GB P.O. Box 87930 GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO Carnegieplein 5 PL PT RO RS SE SI SK SM TR 2508 DH Den Haag (NL) (30) Priority: 01.03.2016 EP 16158105 (56) References cited: WO-A1-97/42834 GB-A- 1 544 812 (43) Date of publication of application: GB-A- 2 484 822 SG-A1- 183 897 09.01.2019 Bulletin 2019/02 US-A1- 2013 281 669 (73) Proprietor: Coöperatie Avebe U.A. • HANS-PETER BACHMANN: "Cheese analogues: 9641 GK Veendam (NL) a review", INTERNATIONAL DAIRY JOURNAL, vol. 11, no. 4-7, 1 July 2001 (2001-07-01) , pages (72) Inventor: BERGSMA, Jacob 505-515, XP055283041, GB ISSN: 0958-6946, DOI: 9641 GK Veendam (NL) 10.1016/S0958-6946(01)00073-5 Note: Within nine months of the publication of the mention of the grant of the European patent in the European Patent Bulletin, any person may give notice to the European Patent Office of opposition to that patent, in accordance with the Implementing Regulations.
    [Show full text]
  • Processed Cheese: Basics and Possibility for the Development of Healthier Products
    Alex. J. Fd. Sci. & Technol. Vol. 13, No. 2, pp. 45-62, 2016 Processed Cheese: Basics and Possibility for the Development of Healthier Products Aly S., Eman El Dakhakhny, El Saadany K., Nassra Dabour & Kheadr, E. Functional Foods and Nutraceuticals Laboratory (FFNL), Dairy Science and Technol- ogy Dept., Fac. of Agric., El-Shatby, 21545, Univ. of Alexandria, Alex., Egypt. Received: 16 November, 2016 Revised: 10 December, 2016 Accepted: 18 December, 2016 ABSTRACT Processed cheese gains continuous popularity due to its diverse composition and wide applications. The diversity of ingredients used for its formulation permits the production of a wide variety of cheeses with different flavours, textures and functions. Presently, more attention has been paid to processed cheese as a promising food vehicle able to deliver specific nutrients into human body. This review focuses on the following topics: market development, main ingredients of processed cheese (mainly natural cheeses, milk protein and emulsifying salts), processed cheese ana- logue (classification, formulation and important protein and fat substitutes) and previous attempts for production of healthier processed cheese. Key words: Processed cheese, natural, reduced-fat, imitated cheese, healthier product. INTRODUCTION form a homogeneous product”. Processed cheese The innovation of processed cheese was origi- production increased steadily during the last cen- nated from the desires to extend the shelf-life of tury leading to the development of wide variety of natural cheese, recycle defected cheese and⁄or to products worldwide. Based on the physical charac- develop a cheese with distinct texture, flavour and teristics of the final product, processed cheese was functional properties. The production of processed generally grouped into two different categories as cheese started in Europe early in the last century.
    [Show full text]
  • Research Article Texture Profile Analysis of Sliced Cheese in Relation to Chemical Composition and Storage Temperature
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Crossref Hindawi Publishing Corporation Journal of Chemistry Volume 2016, Article ID 8690380, 10 pages http://dx.doi.org/10.1155/2016/8690380 Research Article Texture Profile Analysis of Sliced Cheese in relation to Chemical Composition and Storage Temperature Yuanrong Zheng, Zhenmin Liu, and Beihong Mo State Key Laboratory of Dairy Biotechnology, Technical Center of Bright Dairy & Food Co., Ltd., Synergetic Innovation Center of Food Safety and Nutrition, Shanghai 200436, China Correspondence should be addressed to Zhenmin Liu; [email protected] Received 10 October 2015; Revised 1 February 2016; Accepted 6 April 2016 Academic Editor: Shaoyang Liu Copyright © 2016 Yuanrong Zheng et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The quantitative relationships among chemical composition, storage temperature, and texture of cheese were not fully understood. In this study, the effects of composition and temperature on textural properties of eight common varieties of sliced cheese were examined. The textural properties of sliced cheeses, including firmness, cohesiveness, adhesiveness, springiness, chewiness, and ∘ resilience, were measured by texture profile analysis after storage at 4 and 25 C for 4 h. Multivariate logistic regression models were established to describe the quantitative relationships of textural properties (dependent variables) to chemical composition and storage temperature (independent variables) of sliced cheeses. Results showed that protein, fat, moisture, and sodium chloride contents as well as storage temperature significantly affected the texture of sliced cheeses ( < 0.05).
    [Show full text]
  • 1 Processed Cheese and Analogues: an Overview
    1 Processed Cheese and Analogues: An Overview A.Y. Tamime 1.1 Historical background The production of processed cheese started in Europe, and could date to the mid-1890s. Natural cheeses have limited shelf-life and, depending on many factors (i.e. level of mois- ture content, sanitary conditions during the manufacturing stages and storage conditions of the product), this can range from a few weeks to a couple of years. It is possible to suggest that the idea of processed cheese originated from a desire to extend the shelf-life of natural cheese or to develop a new type of cheese which was milder in taste or more stable. Around the same period, commercial developments were made in Germany for the export of short shelf-life soft cheese, e.g. Camembert, Brie and Limburger, which was achieved by heating the cheeses in metal cans. Similar processing methods were also developed for Dutch cheeses, but the process was most successful in Switzerland by using sodium citrate (Berger et al., 1989). Essential steps in the manufacture of processed cheese is melting and heating blends of natural cheeses (e.g. different types, varying degree of maturity, i.e. fresh/young or matured, and cheese ‘re-work’), the addition of emulsifying salts, agitation to produce a homogeneous mixture, followed by packaging and cooling or vice versa. The application of heat (i.e. indirect or direct steam injection) inactivates the starter culture organisms and other bacteria, including the enzymes present in natural cheeses, and produces a product with extended shelf-life. Although the casein in natural cheeses possesses certain emulsi- fying characteristics, the stability of processed cheese could not be achieved without the use of emulsifying salts, such as citrates and phosphates.
    [Show full text]
  • Sustainable Production of Health‐ Promoting N‐3 LCPUFA Using Agro Food Industry By‐Products Through Microalgae Harry Wichers SUSPUFA‐Consortium
    23/11/2019 Sustainable production of health‐ promoting n‐3 LCPUFA using agro food industry by‐products through microalgae Harry Wichers SUSPUFA‐consortium N-3 PUFA ARE GOOD FOR YOU! 1 23/11/2019 N-3 PUFA ARE GOOD FOR YOU! In particular those from fish: • For the development of your brain • CVD • AD • Depression • Immunity: • Mitigate allergies • To counteract inflammation • .......... RDA: 0.5 g/d N-3 PUFA ARE GOOD FOR YOU! In particular those from fish: • DHA (docosahexaenoic acid) • EPA (eicosapentaenoic acid) RDA: 0.5 g/d The issue: the sea is too small 2 23/11/2019 N-3 PUFA ARE GOOD FOR YOU! The issue: the sea is too small The solution: skip the fish and EAT ALGAE N-3 PUFA ARE GOOD FOR YOU! The objective of the SUSPUFA project, is • to develop an innovative process for sustainable production of high value n‐3 long chain polyunsaturated fatty acids (n‐3 LCPUFA) • using agro food industry by‐products through microalgae cultivation • to evaluate the produced n‐3 LCPUFAs as fish oil replacement for incorporation in food formulations 3 23/11/2019 Partnership 4 23/11/2019 P2- Research activity ITALY WP2 - Agro food by-products and wastes (FBWs) A selection of food industry by‐products and wastes has been done on the basis of their key nutrients: organic carbon , N and P. The following food industries and their related FWB were studied by P2: Dairy Sugar cane and beetroot processing Corn processing Olive mill processing Brewery Confectionary Results: The most suitable FBWs in terms of nutrient contents and low cost processing were: corn steep liquor, sugar molasses, spent brewery yeast.
    [Show full text]
  • High Protein Milk Ingredients - a Tool for Value- Addition to Dairy and Food Products
    Journal of Dairy, Veterinary & Animal Research Review Article Open Access High protein milk ingredients - a tool for value- addition to dairy and food products Abstract Volume 6 Issue 1 - 2017 Milk protein ingredients provide not only nutrition, but also specific technological Janki Suthar,1Atanu Jana,2 Smitha functionality when applied in food formulations. Milk protein ingredients are 3 natural, trusted food ingredients and are ideal for unique nutritional and functional Balakrishnan 1Assistant Professor, Department of Dairy Technology, applications. Value addition to dairy and food products are being strived by the dairy Mansinhbhai Institute of Dairy and Food Technology, Mehsana, and food industry to woo more consumers for their innovative products. Use of high India protein milk solids can be one mode of such value-addition to food products. Some 2Department of Dairy Technology, India of the important functional properties of dairy protein ingredients include solubility, 3Assistant Professor, Department of Dairy Chemistry, SMC viscosity building, emulsification, heat stability, aeration, etc. The high protein dairy College of Dairy Science, Anand Agricultural University, India based ingredients highlighted in the review include caseinates, co-precipitates, whey protein concentrates and isolates, milk protein concentrates, micellar casein, UF Correspondence: Atanu Jana, Professor and Head, retentate powder, etc. Cheese analogues are glaring product example in which high Department of Dairy Technology, India, protein ingredients are indispensable. Wheyless cheese can be made utilizing UF Email [email protected] retentate powders. Some of the drawbacks of conventional product such as reduced cheese yield, wheying off from yoghurt, break down of body during storage can be Received: February 28, 2017 | Published: November 14, 2017 taken care of utilizing high protein dairy ingredients in the product formulation.
    [Show full text]