Supporting cheese production

A variety of filtration technologies can be used with advantage in cheese production. Standardising total protein content in yellow cheeses is one of the major filtration applications as it evens out seasonal variations in milk protein content, stabilising the cheesemaking process. Bacteria and spore removal is another application which enhance cheese quality. Filtration also plays an important role in clarifying cheese brine, which is commonly used in cheese production for product preservation and texture control and to enhance flavour and optimise rind formation. 

Benefits

High product quality

Using membrane filtration for protein standardisation allows dairies to produce cheese with a more uniform composition all year round. Bacteria and spore removal helps ensure the cheese will not be destroyed by unwanted bacteria growth.

Standardised cheese vat utilisation

Membrane filtration make it possible to concentrate cheese milk, allowing cheesemakers to standardise the utilisation of cheese vats and whey-draining equipment.

Uses

Feta cheese, lemons and garlic

White cheese

High yield, uniform quality

White cheeses can be manufactured by fully concentrating milk using ultrafiltration. Culture or acid, rennet, salt and other additives are added to the filtration retentate. The finished cheese is then ready for packaging. The ultrafiltration process results in a high, uniform quality and a very high yield. At the same time, it is possible to manufacture several different products on the same ultrafiltration unit.

Classic cream cheese

Cream cheese

Optimal product structure

In cream cheese production, fresh standardised milk is fermented and then concentrated by membrane filtration to create the right product composition. Ultrafiltration is a gentle concentration method that preserves the fat-to-protein ratio while removing only water, minerals and lactose. It delivers the optimal cream cheese structure. Ultrafiltration units are versatile and can manage multiple recipes – from low-fat to full-fat. They can also support different production capacities of these varieties. Ultrafiltration also gives a higher yield than the other concentration option – separation.

Mini mozzarellas in brine

BrineClearTM

Cheese brine clarification

High quality brine is essential to cheese flavour, taste, rind and appearance. Poor quality brine jeopardizes cheese quality and can lead to product spoilage and financial loss. Over time, microorganisms like bacteria, spores, yeast and mould build up in the brine and can migrate to the cheese during the salting process, contaminating the cheese surface and degrading the product’s quality. The BrineClear uses membrane filtration to ensure high-quality brine at all times. The BrineClear process removes undesirable microorganisms, leaving clear brine. No additives are used and the brine’s temperature and pH remain unchanged throughout the filtration process. The BrineClear unit is easily connected to an existing brine system.

Cottage cheese, butter, milk etc on a wooden board

Protein standardisation of cheese milk

Lower costs, higher yield

Standardising total protein content in cheese milk evens out seasonal variations in milk protein content, stabilising the cheesemaking process and improving cheese vat utilization. Total protein standardisation also reduces rennet costs. This gives more control during the production process, reducing quality variation in the final product. Ultrafiltration is the technology used for standardising total protein. The process improves the control of curd-making properties and yields a high-quality whey stream.

Milk being poured

Bacteria and spore removal in cheese

Ensuring high product quality

Traditionally, cheese’s natural content of spores, which survive normal pasteurisation, was controlled by adding nitrate to cheese milk. The nitrate prevents spores from growing and producing gas. In many markets, consumer demands for natural products free from preservatives have seen a step away from nitrate. Instead, cheese producers can use microfiltration to remove spores and undesirable bacteria from the skim milk.

Technologies

Microfiltration unit from Tetra Pak

Standardising casein content

Microfiltration

In cheesemaking, microfiltration is used to standardise casein content in the cheese. This is a crucial step since casein coagulation lies at the heart of the cheesemaking process. Standardising casein content in cheese milk evens out the seasonal variations in casein presence, delivering a more stable cheesemaking process and improved cheese vat utilization. Microfiltration membranes have the largest pore size of the four main dairy filtration technologies. They allow most substances to pass except suspended solids, bacteria and fat globules. Bacteria and spore removal is a crucial step in cheese production and essential to ensure cheese quality and safety.

Ultrafiltration unit from Tetra Pak

Total protein separation

Ultrafiltration

Ultrafiltration membranes are used for concentrating large molecules, notably protein, in milk prior to cheesemaking. Standardizing cheese milk protein content evens out seasonal variations in milk protein content, delivering a more stable cheesemaking process and improved cheese vat utilization. Ultrafiltration membrane allow mineral salts, lactose, organic acids and smaller peptides to pass through as permeate. Proteins, fats and polysaccharides remain in the product as retentate. The low-impact process makes it possible to achieve precisely the protein level that the cheesemaker seeks for each product.

Ultrafiltration - a proven technology for white cheese production

The ultrafiltration (UF)​ method for white cheese production was introduced in the early 1970s and has been widely used ever since. Membrane filtration is an established and proven technology for nearly any dairy process, and Tetra Pak Filtration Solutions has supplied and installed more than 30 UF plants for white cheese production around the world. The UF process offers a number of advantages.

Feta cheese with sallad and tomatoes

Better yield

Better yield

With traditional cheese making in vats, only the casein and fat is retained in the cheese. With the UF method, whey proteins as well as casein and fat is retained. In consequence, the UF method requires approximately 20% less milk per kilo cheese.

Less rennet

Less rennet

The need for rennet addition is to a great extent related to volume. In the traditional vat process, it is necessary to rennet the entire milk volume, whereas in the UF method, only the concentrate volume needs renneting. The concentrate volume is typically 5 times less than the milk volume. Accordingly, the rennet consumption will be considerable lower when using the UF method.

Flexibility and product innovation

Flexibility and product innovation

The same UF plant can produce concentrate with a wide variety of compositions i.e. fat in dry matter, and dry matter in concentrate. Product change from one type to another can be handled in fully automatic process control systems via recipe handling. At the same time, the possibility to switch recipes on the same plant offers an excellent opportunity to introduce new products without having to invest in new equipment.

High nutritional value

High nutritional value

In the traditional vat process, virtually all protein in the cheese is casein; in the UF process, the protein in the cheese consists of both casein and whey proteins. The nutritional value of whey protein is higher than that of casein. Hence, the total nutritional value of the finished product is higher when made by UF.

Continuous and faster process

Continuous and faster process

The traditional cheese making process in vats is by nature a batch process. The UF method is a true continuous process; standardised and pasteurised milk is fed into the UF plant, and concentrate leaves the plant in a continuous flow. The UF process is extremely fast, requiring an average of less than 10 minutes from the milk enters until the concentrate leaves the plant.

Closed system

Closed system

Cheese vats used in traditional process are open or semi open and as such sensitive to contamination from microorganisms in the air, especially yeast and mould. The UF process is a fully closed system and therefore not subject to airborne contamination. The benefit is prolonged product shelf life and less waste due to spoilage.

Easy parameter and composition control

Easy parameter and composition control

The traditional cheese making process in vats is very sensitive to several process parameters: temperature, milk acidity, rennetability, coagulum cutting, mechanical stirring and time in the vat. All those parameters are controlled by the cheese maker and based on his knowledge and experience. The UF process eliminates some of the variables with a fully automatic process control system ensuring a uniform concentrate at all times.

Relevant equipment

Membrane types

​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​Membrane types and applications​

The heart in any membrane filtration process is the membrane itself, and choosing the best membrane for a given process is often a complex task.

Man using membrane installation tool

Membrane tools

We offer a number of handy and easy-to-use systems and tools for installation, maintenance, and troubleshooting of your filtration system.

Multi pilot unit spiral wound 60 bar

Rental pilot units

We offer different types of easy-to-use pilot units for rental. All the various dairy filtration pro­cesses can be tested by means of our different types.

Insights and cases

Explore more solutions

Cheesemaker smiling and holding a cheese

Cheese production

Backed by decades of expertise, we have the knowledge, integrated plant solutions and packaging you need for cheddar cheese production to produce consistently.

Cheese lines

Cheese lines

Our best-practice lines for cheese lines combine our proven solutions into the most optimal setup for a specific product at a specific capacity.

processing equipment

Processing equipment

We provide complete solutions and equipment for dairy, cheese, ice cream, JNSD and other beverages, powder, plant-based, food and New Food.

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