Putting thermal processing to the test

Putting thermal processing to the test

Demonstrating the latest thermal processing technologies, a new test kitchen is enabling large and small food processors to test advanced cooking and chilling systems that can provide economic and quality advantages.

Product yields, throughput, food safety and more labour- and energy-efficient ways to address increasingly diverse consumer preferences are concerns of food processors throughout Europe. To address these issues, a manufacturer of advanced thermal cooking, pasteurising and chilling/freezing systems has inaugurated a test kitchen in Maastricht, Netherlands, that will enable processors seeking productivity and quality improvements to see and test the latest systems for cooking protein, vegetable and bakery products.

“This facility demonstrates many of the most efficient technologies for processing foods that many European consumers are looking for today,” says Bartosz Psiuch, director of food processing equipment distributor Alimp (Mysłowice, Poland). “It creates a highly promising opportunity for large and small processors to try out systems that have never been seen before in Europe, and can enable them to better service their markets, whether ready-to-eat, food services or institutional.”

Designed and operated by Unitherm Food Systems Inc (Bristow, OK, USA), the cooking and chilling systems demonstrated at the Maastricht test kitchen include the latest continuous systems of various capacities that can provide substantial productivity as well as increased yields and other benefits for the cooking and pasteurising of various products.

Decisive tests
Unitherm’s Francisco Sierra, who is based at the new Netherlands facility, explains that many European processors can benefit from improving profitability and quality, but can also gain important flexibility by using some of the new continuous cooking systems.

“Many European companies are producing snack items such as chicken wings,” says Sierra. “They want to develop a product with a very nice colour using their own recipes, whether teriyaki-style wings, buffalo-style wings or any other flavour. Using our spiral oven, they can achieve that while at the same time increase their yields substantially.”

Sierra explains that when chicken wings are cooked in a conventional batch oven, they must first be placed in trays. “It takes considerable labour and time to load those trays,” he says. “In total, each batch takes about 50 minutes, on average. But using a continuous cooking line, that same amount of chicken will likely take about 20-22 minutes. This system maximises the effects of colour development and minimises shrink. So, productivity is increased, quality and yield are improved and the cost of labour is reduced.”

Dramatic results
Another advanced system that processors can execute at the new Maastricht facility is the IR (infrared) inline smoking and browning process. “This will be a breakthrough to European companies that use a traditional process for smoking ham,” says Sierra. “We can say, ‘what is taking you five hours, you can now do in 60 seconds’ through inline smoking and browning.”

Sierra notes that, as an example, he recently visited a large manufacturer of smoked hams that was dunking cooked hams in a vessel and then transporting them to a smokehouse where they were smoked for three hours.

“This was a labour-intensive and messy process,” he explains. “Each ham in a batch had to be dunked before the group was transported, which exposed all of the hams to cross contamination for up to 35 minutes. Also, throughput was slow. After installing the IR inline smoking and browning system, the company is able to produce in three to four hours the volume that previously took all day. Also, the new system smokes with condensates, which creates more genuine flavour and appearance, with greater uniformity. And because the system smokes, browns and caramelises in one pass, the company is simultaneously improving efficiency, reducing labour costs, reducing the size of the footprint involved, while improving on food safety.”

Something for everyone
Unitherm’s Maastricht test kitchen includes systems that can be beneficial to food processors of many sizes and categories.

Systems such as the micro spiral oven are affordable for even small businesses and startups and require only a small footprint. This flexible system can be used for producing a wide array of products, ranging from chicken and bacon bits to pies and potatoes. In addition, there is a flame grill that produces authentic bar-marks for a flame grilled appearance, and a newly released machine called the Tunnel of Fire that can flame roast chicken in 30 seconds. For the many processors who cook vegetables, a Unitherm flame pasteurisation system will demonstrate a quantum increase in throughput and yield improvement.

David Howard, Unitherm CEO, concludes, “The future of purchasing food processing machinery is going this way, where the customer can demand to go into a kitchen and try out their product on the machinery. Only then can they feel confident that the equipment best serves their operational parameters and expected results.”

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