[Improvement Case] Long-lasting coolant with nanobubbles! Nanobubble generator
Long-lasting coolant with nanobubbles! For improving factory environments and extending coolant lifespan, the nanobubble generator "i-TOOL Nano Booster."
We would like to introduce a case study of improvements achieved through the introduction of the i-TOOL Nano Booster at a metal processing customer. In the metal processing factory, the deterioration of coolant fluid had been a challenge, causing decay and the proliferation of bacteria that negatively affected the entire machine tool. The focus turned to the nano-bubble generator "i-TOOL Nano Booster." Initially, it was introduced with skepticism on a 5-axis machine equipped with a multi-face pallet, but this machine had a low operating rate, and coolant stagnation was noticeable, leading to a belief that coolant decay was inevitable. However, one year after the introduction, monitoring by the coolant oil manufacturer Brother Switzerland Group Japan yielded surprising results: the coolant fluid had hardly deteriorated at all. Building on this success, additional installations were made on other equipment where coolant decay had occurred, and it has now been considered to standardize the installation of the Nano Booster on future equipment. <Improvement Effects of Nano Booster Introduction> - Prevention of coolant decay and reduction of unpleasant odors - Reduction of maintenance costs - Alleviation of the burden on operators, etc. For more details, please visit our website or feel free to contact us.
basic information
**[Lineup]** Flow Rate: 5L/10L/15L/30L **[Specifications]** Pressure: 0.2–7.0MPa Applicable: Water-soluble coolants, aqueous cleaning solutions, cooling water, etc. Temperature: Maximum 50°C Liquid Properties: Weakly acidic to weakly alkaline **The Decay Process of Coolant Liquid: Why Does Coolant Liquid Decay in the First Place?** Anaerobic bacteria, which are responsible for the decay of coolant liquid, thrive under specific conditions and cause the degradation of the coolant. It is believed that anaerobic bacteria proliferate due to the following factors: ◆ Lack of Oxygen in the Coolant Liquid When coolant liquid stagnates in areas with low oxygen supply, such as the bottom of tanks or inside pipes, it creates an environment conducive to the activity of anaerobic bacteria. This is particularly likely to occur in machines with low operating rates, where liquid circulation is insufficient, leading to oxygen deficiency. ◆ Accumulation of Organic Matter During operation, if cutting oil, metal dust, dirt, or grease from workers' hands and clothing mix into the coolant liquid, these substances serve as food for anaerobic bacteria, promoting their proliferation. ◆ Changes in Temperature and pH When the temperature of the coolant liquid rises within a certain range and the pH decreases, it creates an environment that is favorable for the proliferation of anaerobic bacteria.
Price range
Delivery Time
Model number/Brand name
i-TOOL Nano Booster
Applications/Examples of results
Effects of the i-TOOL Nano Booster The "i-TOOL Nano Booster" is expected to suppress the growth of anaerobic bacteria and delay coolant corrosion by generating fine nano bubbles within the coolant. This can reduce the frequency of troublesome coolant treatments and help suppress unpleasant odors such as decay smells. It significantly contributes to improving the factory environment and extending the lifespan of the coolant. This product can be directly integrated into the piping of machine tools and cleaning machines. For more details, please visit our website or feel free to contact us.
