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A new innovative way to transport fish while sleeping is almost ready to go onto the market. A combination of CO2 and ultrafine bubbles make this possible.
Recirculating aquaculture systems for fish cultivation
Selecting a nanobubble generator can be a daunting task when you are new to the technology. In the following article we explain the differences of the various units. This helps you to select the best nanobubble generator for your research, application development or ultrafine bubble production.
Stagnant water in urban ponds and moats triggers seasonal algal blooms that cause fish mortality, foul odor, and murky water. Acniti solved these problems at Kyoto's 810m Higashi Honganji temple moat using submersible nanobubble aerators paired with a natural probiotics program, raising dissolved oxygen from 4.5 to 9 ppm and clearing the water completely within three months.
Probiotics water treatment with nanobubbles and powerful micro-organisms and bacteria. Efficient micro-organisms working in combination with ultra-fine bubbles
Interested to know why nanobubbles are officially called ultrafine bubbles? In this article we explain the reasons why the ISO technical committee has decided to use the official name ultrafine bubbles instead of nanobubbles.
Acniti offers dissolved oxygen controllers and handheld monitors designed for nanobubble generators and oxygen generators. The DO controller automates aeration using PLC-based setpoint control, while the Polaris handheld sensor provides portable DO measurement with NFC and Bluetooth. Both target aquaculture, shrimp farming, and high-DO water treatment applications.
Manoa lettuce is a lettuce variety susceptible to tipburn. Tipburn is the drying and dying of leaf tissue along the edges of the leaf. During a test at a grower in Hawaii it was shown that by increasing the DO levels and adding ultrafine bubbles, reduction of tipburn is realized and quality and production improvements are made.
Discover the ultrafine GaLF, a cutting-edge generator delivering the highest concentration of nanobubbles in the Finebubble industry. Designed for researchers, universities, and labs, it’s perfect for fundamental research and product development. With advanced PLC controls and flexible gas options, this compact and robust unit ensures peak performance and easy operation. Read more to see how nanobubbles can boost cleaning, plant growth, and fish health.
Low dissolved oxygen (DO) limits biological activity in aquaculture, horticulture, and water treatment. Nanobubble technology solves this by adding two levels of oxygen to water: dissolved O2 and suspended gas cavities. This page covers DO fundamentals, saturation tables, and the role of enhanced aeration.
ozone nanobubbles
The Oxiti is a heavy-duty industrial oxygen concentrator using PSA technology to deliver 85-96% pure oxygen at various flow rates. Featuring a rugged aluminum chassis and Japanese components, it is engineered for harsh environments in aquaculture, water treatment, and nanobubble applications. Strictly for non-medical industrial use.
The Oxiti Booster is a compact PSA oxygen generator built for industrial applications that need sustained high pressure. The Mini Booster delivers up to 140 kPa continuously, and the Booster reaches up to 400 kPa - both at up to 8 LPM, rated for 24/7 operation. Built from Japanese components, including Thomas Compressors and Fuji Electric. Not for medical use.
The RF200 to RF400 series are self-cleaning pump inlet filters for surface-mounted pumps, handling 220-1000 LPM with mesh options from 50 micron to 6 mm. A patented backwash rotor powered by filtered pump output keeps the screen clear continuously - no manual cleaning required. SUS316 cage construction throughout.
The Oxiti Aerator 100 is a high-capacity industrial air pump designed to feed nanobubble generators in deep-water installations. It delivers 40-100 LPM of clean air at depths up to 6 meters, enabling continuous oxygen dissolution and nanobubble generation. Oil-free and maintenance-free for up to 15,000 hours, it's built for continuous aquaculture, water treatment, and aeration operations.
Acniti is a Japanese manufacturer specializing in nanobubble equipment and industrial oxygen concentrators. Based in Osaka since 2017, we are the only provider offering three distinct nanobubble generation technologies: pressurized dissolution, turbulent static mixer, and hammer-mill rotation. Our solutions serve universities, water treatment, aquaculture, agriculture, mining, wastewater remediation, and industrial cleaning applications globally. Acniti products integrate robust PSA oxygen concentrators with proprietary nanobubble generators for 24/7 industrial operation. Acniti does not supply oxygen concentrators for medical purposes.
The wall mounted Turbiti is the multipurpose nanobubble generator suitable for agriculture, horticulture and fish cultivation sites. Super saturation of oxygen for water day storage tanks in horticulture. Drinking water solutions for chicken, cows, pigs and horses, giving high DO water with ultrafine bubbles to animals with enhance their food digestion more efficiently and results in healthier animals.
enhanced aeration
Ozone nanobubbles are attractive for water purification, treatment, and disinfection. ozone nanobubbles have a higher mass transfer rate than ordinary bubbles and there for nanobubbles more efficiently use ozone as a powerful oxidizing agent and sterilizer to kill or inactivate bacteria and viruses.
High-performance industrial oxygen generators by Acniti. Enhance nanobubbles, aquaculture, and water treatment with reliable PSA technology.
What are ultrafine bubbles?
Water treatment Tsurumi Pump 50 PN2.75 for turbiti nanobubble mixer 737 in a submersible configuration.
Water is one of the fundamental components of life. A large part of living cells is made up of water. Birds need twice as much water as the food they eat. To satisfy the need for water in poultry and birds, you must make water freely available to them. Note that the unavailability and limitation of water consumed by poultry slows down their growth. The water used in poultry feeding should not contain parasites, bacteria, pollution or chemicals, and fresh and clean drinking water must be provided. Bacterial agents are one of the most common water-borne infections. Drinking contaminated and untreated water can cause huge losses in the poultry industry. Using chemicals and antibiotics to disinfect drinking water can cause health problems and drug resistance in chickens. In the last decade, researchers have tried to find a suitable alternative to disinfect and improve the quality of drinking water for farm animals, especially chickens. One of the most available and best options is oxygen-nanobubbles water. By providing oxygen- nanobubbles water, the growth and development of chickens increases, and on the other hand, it enhances their resistance against microbial infections. In this article, we evaluate the benefits of oxygen-nanobubbles water in the poultry industry.
If you're dosing ozone, managing seawater quality, or running aquaculture in saltwater, you need more than an ORP meter. The Underwater Oxidant Meter uses three-electrode potential pulse voltammetry (PPV) to measure chlorine, ozone, and H₂O₂ directly - no reagents, no drift, self-cleaning electrodes. Accurate results in harsh marine conditions, in under a minute.