Dairy Product Consultancy
Our team of food technologists focuses on our client’s perspective and walk together in shaping up their food product ideas, food product formulation, stability studies, food testing, nutritional testing, quality, and shelf-life testing.
This section focuses on the processing of cow’s milk and milk products. In general, the processing technology described for cow’s milk can be successfully applied to milk obtained from other species.
Nutrient composition
Although milk is a liquid and most often considered a drink, it contains between 12 and 13 percent total solids and perhaps should be regarded as a food.
Many factors influence the composition of milk, including breed, genetic constitution of the individual cow, age of the cow, stage of lactation, interval between milking, and certain disease conditions.
The major components of milk are water, fat, protein, carbohydrate (lactose), and minerals (ash). However, there are numerous other highly important micronutrients such as vitamins, essential amino acids, and trace minerals.
Reference Flow Chart For Paneer Processing
Quality Concerns
Raw milk is a potentially dangerous food that must be processed and protected to assure its safety for humans. Therefore, it is essential that all milk be either pasteurized or processed into desired products to extends its shelf life
The milk is checked for odour, appearance, proper temperature, acidity, bacteria, and the presence of drug residues.
Type of products
- Milk and dairy-based drinks
- Fermented and renneted milk products
- Condensed milk and analogues (plain)
- Cream (plain) and the like
- Milk powder and cream powder and powder analogues (plain)
- Cheese and analogues
- Dairy-based desserts
- Whey and whey products
FAQ's
Food fortification or enrichment is the process of adding micronutrients (essential trace elements and vitamins) to food. .Food fortification is a proven, sustainable, cost-effective and high-impact solution to address micronutrient deficiencies.
Food fortification can also be categorized according to the stage of addition:
1. Commercial and industrial fortification (Finished products)
2. Bio fortification (breeding crops to increase their nutritional value, which can include both conventional selective breeding, and genetic engineering)
3. Home fortification (example: vitamin D drops)
Fortification compounds used
• Vitamin A
• Vitamin D
Preservatives are added to food to fight spoilage caused by bacteria, molds, fungus, and yeast. Preservatives can keep food fresher for longer periods of time, extending its shelf life. Food preservatives also are used to slow or prevent changes in color, flavor or texture and delay rancidity.
When it comes to preserving foods, there are two methods: physical and chemical. Drying, refrigerating and freezing are examples of physical preservation. Chemical preservation involves adding ingredients called additives to food in order to prevent oxidation, rancidity, bacterial growth, etc. There are both natural and synthetic preservatives that are used in food
Common preservatives used
• Nisin
• Sorbic acid
• Propionic acid
Antioxidants are used as food additives to help guard against food deterioration. Exposure to oxygen and sunlight are the two main factors in the oxidation of food. Antioxidants are an especially important class of preservatives as, unlike bacterial or fungal spoilage, oxidation reactions still occur relatively rapidly in frozen or refrigerated food.
These preservatives include natural & synthetic antioxidants
Common antioxidants used
• L- Ascorbic acid (Natural)
• Ascorbyl palimtate ( Synthetic)
• Tocopherols (Natural)
• Propyl gallate (Synthetic)
• Butylated hydroxy anisole ( Synthetic)
Acidity regulators, or pH control agents, are food additives used to change or maintain pH (acidity or basicity).Theycan be organic or mineral acids, bases, neutralizing agents, or buffering agents.
Some acidifiers also act as stabilizers; others help antioxidants or emulsifiers, or assist in colour retention. It may seem a minor parameter, but to maintain the appropriate pH is the first step to ensure food safety and a longer shelf life.
Commonly used acidity regulators
• Calcium and magnesium carbonates
• Sodium bicarbonate and Sodium carbonate
• Sodium and Calcium hydroxide
• Sodium phosphate
The colour of your food plays an important role by visually stimulating your appetite. But have you ever wondered where these colours come from?
Food colourings are of two types: artificial and natural. Not surprisingly, natural colours are a better alternative as they are wholly derived from plants. Natural colouring usually appears less vibrant when compared to artificial colouring. This however, does not affect the taste of your food.
Commonly used food colours
• Natural -Chlorophyll
• Natural -Caramel
• Natural -Curcumin or turmeric
• Natural – Beta carotene
• Natural -Riboflavin, Lactoflavin
• Natural -Annato
• Natural -Saffron
• Natural -Canthaxanthin
• Synthetic- Ponceau 4R
• Synthetic- Carmoisine
• Synthetic- Erythrosine
• Synthetic- Tartrazine
• Synthetic- Sunset Yellow FCF
• Synthetic- Indigo carmine
• Synthetic- Brilliant blue FCF
• Synthetic- Fast green FCF
Acidity regulators, or pH control agents, are food additives used to change or maintain pH (acidity or basicity).Theycan be organic or mineral acids, bases, neutralizing agents, or buffering agents.
Acidity regulators, or pH control agents, are food additives used to change or maintain pH (acidity or basicity).Theycan be organic or mineral acids, bases, neutralizing agents, or buffering agents.
Commonly used acidity regulators
• Calcium and magnesium carbonates
• Sodium bicarbonate and Sodium carbonate
• Sodium and Calcium hydroxide
• Sodium phosphate
