Blog - Cavitation and process intensification - p1
ROTOCAV hydrodynamic cavitator at GENP2018
ROTOCAV at Eurotier 2018 with Cavimax
ROTOCAV Hydrodynamic cavitators for enhanced animal-feed technology will be at Eurotier 2018, 13-16 November 2018, in Hannover.
Our partner Cavimax will reply to your questions and explain how a ROTOCAV cavitator can be used to prepare animal feed.
No more wasted crops, animals will grow more, greater bioavailability of animal feed, utilization of maize silage in pig feed, reduction of feeding costs, decrease in mortality, reduction in antibiotic use: these are the main advantages of installing a ROTOCAV cavitator.
For more information and details on the event visit Eurotier website.
Nature and hydrodynamic cavitation: the snapping (pistol) shrimp
Do you know that nature also uses hydrodynamic cavitation? The snapping shrimp, also known as pistol shrimp, is a member of the crustacean family living in tropical and subtropical areas, that uses hydrodynamic cavitation in its everyday life.
This shrimp, with a size of no more than 5 cm, is characterized by a big claw, which is used as a gun, to stun and kill its preys, usually small fishes, shrimps and crabs, by using hydrodynamic cavitation.
Its enlarged claw, which can be half of its entire body length, can be opened and closed very fast, in less than a millisecond: its particular geometry generates a high velocity water jet, travelling at about 100 km/h; this high velocity jet produces a low pressure area and so a cloud of vapour bubbles which implode on its prey.
The cloud of bubbles implodes at about 3 mm far from the claw, when the pressure of the surrounding water increases.
When the bubbles collapse, local high temperature (several thousands of degrees) and high pressure (several thousands of atmospheres) are generated, leaving no hope to the prey: pressure and temperature are so high that sonoluminescence can happen for few nanoseconds.
Also known as sonic hunting, this is a way to stun and kill preys, without making use of direct physical contact.
Extraction from cocoa bean shell waste with ROTOCAV cavitator
Several tests have been performed to extract high valuable compounds from cocoa bean shell waste with the ROTOCAV hydrodynamic cavitator: results are reported on "Food Research International" and published on Sciencedirect, one of the most important international database for scientific articles.
The present work aimed to valorise cocoa shells, one of the main by-product of the roasting process, in order to enhance the effective extraction of high added value compounds.
It has been demonstrated that cocoa shells are a valuable source of antioxidant flavanols (catechin and epicatechin), methylxanthines (theobromine and caffeine), fatty acids and fibres. The extraction with the ROTOCAV hydrodynamic cavitator gave yields of 15,8% w/w in cocoa butter and 20,5% w/w in hydrophilic compounds, composed mainly of polyphenols and methylxanthines: these were the best results compared with ultrasound and conventional extractions, at laboratory scale.
Boost your extraction process and valorize waste with a ROTOCAV cavitator, choose the best extraction technology!
What is cavitation and why should I need a ROTOCAV hydrodynamic cavitator?
A short video to explain what is cavitation and how our ROTOCAV hydrodynamic cavitator can improve industrial processes: if you need a boost for your process and you want to intensify it, to mix liquids with liquids, liquids with solids and liquids with gases you can exploit hydrodynamic cavitation generated by the ROTOCAV and increase process yields and your product quality.
Optimize mass transfer and diffusivity, promoting turbulence, cavitation and shear stresses, drastically reduce treatment times and hold-up, to obtain products of better quality! Watch the full video!
Hydrodynamic cavitation to treat pigments for the paint and coatings industries
Have you ever heard of the treatment of pigments and dyes by hydrodynamic cavitation for the paint and coatings industries? Do you work in such industries and you are experiencing issues in homogenization and dispersing? We tested our ROTOCAV hydrodynamic cavitator to treat pigments, to be able to obtain a more uniform particle size distribution in the nano and micron ranges and improve the quality of colors, paints and coatings.
Our test was able to decrease the particle size, with a narrow particle size distribution curve and to effectively homogenize and disperse the pigments into the liquid medium.
The treatment increased also the stability of the dispersion, with no sedimented residues and agglomerates after one month of storage.
Why treating pigments with hydrodynamic cavitation? Liquid jets and cavitational shear stresses are able to break up the solids and you will have better color saturation, stability, consistency and wettability!