Instead of boiling a product to evaporate water (the most common technique used by industry), the Sheffield team injected hot microbubbles through the liquid, causing the water to evaporate without boiling.
“We’ve applied this principle, called ‘cold boiling’ to separate water from methanol,” said Professor Will Zimmerman, who led the study. “Although conventional bubbles have been used in evaporation processes before, they still transfer a lot of their heat to the mixture. This wastes a lot of energy and can ‘cook’ the mixture, which in most cases makes it unusable.
“The process we have developed involves applying the right concentration of hot microbubbles to a thin layer of liquid. This causes the water to vaporise with very little heating of the mixture.”
The ability of microbubbles to draw heat out of a liquid can be exploited in many industrial processes, from food processing to biofuel production.
Professor Zimmerman’s team is working on a pilot project with South Yorkshire-based company Carbon Sequestration using the technique to remove excess water from whey, commonly used as an animal food. If whey is overheated when its water content is removed, it loses much of its nutritional value.
© FoodBev Media Ltd 2024