“Pakistan is a very important country, and Ferraro has been present in this market for the past 40 years. We have been following all the developments, and we know the needs of the Pakistani market. Nowadays, one of the most important things is the ability to reduce energy consumption and pollution. Recently, we introduced FerrSonic, a new ultrasonic technology. The technology we’ve developed drastically reduces water usage and, consequently, the chemical dosage needed to remove oils and impurities from knitting and weaving. We’re also working with chemical partners to develop biodegradable chemicals, so our solutions are not only efficient but also eco-friendly.” Alex Zucchi. CEO. Ferraro SpA
Established in 1951, Ferraro SpA, with more than 60 years of experience, is the ideal partner for companies looking for excellence and quality in the finishing of knitted and woven fabrics will be exhibiting at ITMA ASIA + CITME 2025, Singapore, in Hall H7, Stand A 308. Ferraro SpA is a globally recognized name in textile finishing machinery, continues to push the boundaries of innovation, efficiency, and sustainability.
FerrSonic revolutionizes fabric scouring with patented ultrasound technology. It drastically reduces water, energy, and chemical use, cutting CO2 emissions and operating costs due to real-time liquid recycling and continuous in-line processing. A smarter, cleaner alternative to traditional scouring machines.
Step into a new era of conscious innovation. Their latest patented machine redefines sustainability, and their smart monitoring device gives you full control because caring for the planet starts with every detail. FerrSonic is a unit for the scouring treatment of textiles, to remove weaving oils in open fabric, and can be used either as a standalone unit or as an in-line preparation for heat setting or drying.
While developing this technology, Ferraro has deeply considered the textile industry’s needs in order to provide a system that can also be integrated with existing machinery. What is ultrasonic emulsification? Ultrasound devices generate shock waves, acoustic streaming, and acoustic cavitation, which can intensify the disruption of oil droplets, forming emulsions with smaller droplets compared to mechanical stirring.
Ultrasonic emulsification processes use the forces of acoustic cavitation. Acoustic cavitation refers to the phenomenon of the formation, growth, and implosive collapse of small bubbles in a liquid medium subjected to high-intensity ultrasound waves. This process creates millions of tiny bubbles that implode, creating a vacuum in the water, and the jet stream created frees the dirt from deep in the fabric. This is what makes ultrasonic cleaning so effective for washing deep into the fabric where other washing systems cannot.
