Details:

Product name: Suitcase-Style Nanobubble Generator

Awerage bubble size: 150nm

Flow rate:5 m³/h

Products Description

The suitcase-style nanobubble generator is a small nanobubble generator that combines portability and high performance. Breaking away from the site limitations of traditional large equipment, it requires no complex installation and allows for efficient nanobubble generation anytime, anywhere. It is widely applicable to temporary or mobile operations in various scenarios such as municipal engineering, agriculture, aquaculture, environmental protection, and scientific research. Its compact size houses powerful performance, balancing practicality and convenience.

The core advantage of this product lies in its ultra-portable design. The entire unit adopts a one-piece suitcase structure, seamlessly integrating the nanobubble generator and matching pump body inside the suitcase. No additional auxiliary equipment is needed; it is ready to use immediately upon opening the box. Lightweight and easy to transport, it can flexibly adapt to indoor experiments, outdoor field treatments, or mobile operations, significantly reducing labor and site costs.

In terms of core performance, the product is equipped with a high-efficiency power system with a rated flow rate of up to 5 m³/h, stably outputting sufficient nanobubbles to meet the bubble supply needs of small to medium-sized operations. Power is supplied via a universal 220V voltage and 50Hz frequency, compatible with everyday civilian and general industrial power supply standards. No dedicated power supply equipment is required; it can be started and operated simply by connecting to a conventional power source. Operation is simple and convenient, requiring no professional technicians.

Technically, the product innovatively integrates Venturi jet and vortex cutting technologies to achieve multi-stage bubble fragmentation and refinement. Combined with the internal pure silicon carbide porous ceramic component, it further enhances the uniformity and stability of the bubbles. The pure silicon carbide porous ceramic possesses high porosity, high wear resistance, and excellent air and water permeability, effectively ensuring the continuity of bubble generation.

Ultimately, it achieves nanoscale bubble output with an average bubble size as low as 150nm. These bubbles have a longer residence time in water, a larger specific surface area, and significantly improved oxygen utilization. Compared to traditional bubble generators, the treatment efficiency is significantly improved, enabling rapid water oxygenation and pollutant degradation.

In terms of material selection, the product offers diversified customization options, allowing users to choose from four materials-304 stainless steel, 316 stainless steel, PPH plastic, and 2205 duplex stainless steel-to meet different operating conditions and media requirements. 304 stainless steel offers high cost-effectiveness and is suitable for general non-corrosive conditions; 316 stainless steel, with added molybdenum, is resistant to chloride ions and weak acids, making it suitable for mildly corrosive environments; PPH plastic is chemically resistant and lighter, suitable for acid and alkaline media; and 2205 duplex stainless steel boasts extremely high strength, strong corrosion resistance, and high pressure resistance, making it suitable for extremely harsh conditions. This comprehensive approach meets the personalized needs of various industries and extends equipment lifespan.

With its portable design, stable performance, adaptability to various materials, and advanced bubble generation technology, this product can be widely used in multiple fields: in aquaculture, it can quickly increase dissolved oxygen levels in water, promote fish and shrimp growth, and improve transportation survival rates; in river management, it can efficiently degrade water pollutants and restore aquatic ecosystems; in agricultural irrigation, it can enhance the dissolved oxygen content of irrigation water and promote crop root growth; in addition, it can also be used in laboratory research, small-scale sewage treatment, food cleaning, and other scenarios, combining practicality and versatility, making it an efficient, convenient, and durable small nanobubble solution.