| Customization: | Available |
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| Material: | Aluminum Alloy |
| Usage: | for Experiment, for Manufacture, for Refrigerate |
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GGA™ Air Foil Bearing Turbo Blower is a highly efficient solution for pneumatic conveying systems. It provides the compressed air needed to move materials through pipelines, with the added benefit of reduced friction and wear due to the air foil bearing system. This leads to lower energy consumption, reduced maintenance, and longer operational life, making it ideal for high-performance conveying applications.
In pneumatic conveying, the goal is to move materials (e.g., powders, pellets) through pipelines using a flow of compressed air or gas. The air foil bearing turbo blower generates the compressed air that drives the materials through the system.
| Model | Suction Flow(m³/min) | Pressure(Kpa) | Motor Power(kw) |
| GGA7.5 | 4-9 | 30-70 | 7.5 |
| GGA11 | 6-13 | 30-90 | 11 |
| GGA15 | 8-18 | 30-90 | 15 |
| GGA22 | 12-29 | 30-90 | 22 |
| GGA30 | 16-42 | 30-110 | 30 |
| GGA55 | 28-73 | 30-120 | 55 |
| GGA75 | 34-109 | 30~120 | 75 |
| GGA110 | 56-146 | 30~120 | 110 |
| GGA150 | 77-218 | 30~120 | 150 |
| Model | GGA110 | Power | 110kw |
| Pressure | 30-120kpa | Capacity | 56-146m3/min |
| Origin | China | Production capacity | 1000 set/year |
| Warranty | 24 months | Trademark | GGA |
| Weight | 850kg | Size | 1000 x 2100 x 2000mm |
| Motor |
High-speed PMSM
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Bearing
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Active Air Bearing
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Coupling
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Direct coupling
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Noise
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< 80 dBA
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Winding Protection
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Yes |
Inverter
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Siemens
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| Core Technology | Description |
|---|---|
| Air Foil Bearing System | Uses an air film to suspend the rotor, eliminating mechanical contact and friction. The bearing self-pressurizes during rotor operation, providing contact-free support, reducing wear, improving efficiency, and increasing lifespan. |
| Contactless Design | Since there is no physical contact between the rotor and the bearing, friction is minimized, significantly reducing wear and energy consumption, thereby enhancing operational efficiency. |
| Self-Pressurizing Function | The air foil bearing generates its own pressurized air film as the rotor spins, meaning no additional lubrication is needed, lowering maintenance costs and environmental impact. |
| Efficient Operation | Without mechanical contact and lubrication requirements, the blower operates with higher efficiency, reducing energy loss and improving overall system performance. |
| High-Speed Centrifugal Compression | The turbo blower uses high-speed centrifugal impellers (up to 50,000 RPM or more) to accelerate and compress air, providing the required airflow and pressure. |
| No Lubrication Required | Air foil bearings do not require lubricants like oil or grease, reducing maintenance costs and eliminating the risk of contamination or leakage. |
| Reduced Friction & Wear | The absence of contact parts minimizes friction and wear, leading to higher reliability and longer service life of the blower. |
| Environmental & Low Maintenance | With no need for lubrication, the air foil turbo blower is environmentally friendly and requires less maintenance, lowering operational costs. |
| High Load & High-Speed Performance | Air foil bearings can handle high loads and operate at high speeds, ensuring stable performance under high pressure and flow conditions, making it ideal for pneumatic conveying and other industrial applications. |
| Advantage | Explanation |
|---|---|
| Low Friction | Air foil bearings eliminate mechanical contact, reducing friction to an almost negligible level. This minimizes wear and tear on components, enhancing overall system efficiency and performance. |
| High Efficiency | Reduced friction results in less energy loss, allowing the blower to achieve higher air pressure and flow rates with less input power. This leads to significant energy savings, especially in continuous or long-term operations. |
| Less Maintenance | With no physical contact between the rotor and bearings, there's no need for lubrication, greatly reducing the frequency and cost of maintenance. This also minimizes downtime and operational disruptions. |
| Longer Lifespan | The absence of mechanical wear on the bearings and rotor translates to a longer operational life for the blower. Air foil bearings ensure smooth, stable performance over extended periods, reducing the need for replacements or repairs. |
| Quiet Operation | Air foil bearings contribute to a quieter operation compared to traditional bearing systems. The absence of metal-to-metal contact and the use of air as a bearing medium results in significantly lower noise levels. |
| Environmental Benefits | With no oil or grease required for lubrication, air foil bearing turbo blowers have a reduced environmental impact. There is no risk of oil leakage or contamination, making them a more eco-friendly option. |
| Stable Performance | Air foil bearings maintain a consistent air film during operation, ensuring the blower maintains high efficiency even under varying load conditions, which is particularly important for pneumatic conveying systems that require consistent pressure and flow. |
| Application | Description | Benefit |
|---|---|---|
| Wastewater Treatment | Used for aeration in wastewater treatment plants to promote bacterial growth that breaks down organic waste. | High efficiency and energy savings for continuous operation in large-scale facilities. |
| Pneumatic Conveying | Used for transporting materials through pipelines using pressurized air in industries like food processing, pharmaceuticals, and plastics. | Stable, high-pressure airflow ensures efficient material transfer and prevents contamination. |
| Industrial Air Supply | Provides pressurized air for processes such as combustion air supply, air knives, and drying systems. | Reliable air supply for various industrial processes, reducing energy consumption. |
| Aquaculture | Used for oxygenating fish tanks or ponds to ensure a constant supply of oxygen to aquatic life. | Efficient oxygen supply with minimal operating costs, crucial for healthy aquaculture systems. |
| Fluidized Bed Systems | Used in fluidized bed reactors to create a fluidized state for reactions or mixing in industrial processes. | Consistent airflow and pressure optimize chemical reactions and material processing. |
| High-Pressure Air Systems | Used in vacuuming, air blasting, or pressurizing specific chambers for industrial processes. | Maintains high pressure with minimal friction, supporting demanding applications. |
| Vacuum Systems | Used to create vacuum environments for packaging or manufacturing processes. | Reliable and consistent vacuum performance with low energy consumption. |
| Energy Recovery & Carbon Capture | Used for gas compression and processing in energy recovery and carbon capture systems. | Energy-efficient design contributes to lower carbon footprints and operational costs in energy recovery systems. |
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