Successful Cases
AIRHORSE
High Purity · High Stability · Low Energy Consumption | AirHorse Two-Stage Air Compressor Helps Shenzhen Semiconductor Enterprise Upgrade Air System
In recent years, with the rapid development of the semiconductor industry, fields such as chip manufacturing, electronic packaging, and precision components have seen continuously increasing demands for production environments and equipment stability. Especially in modern semiconductor factories, compressed air is directly related to product quality, equipment precision, and production continuity.
For the semiconductor industry, issues such as pressure fluctuations, insufficient air supply, or excessive oil/water content in the compressed air system can not only affect production precision but also cause equipment abnormalities, reduce yield, and even disrupt the stable operation of the entire production line.
Recently, a semiconductor enterprise in Shenzhen, aiming to further enhance the stability of its workshop air power system, introduced two AirHorse 132kW two-stage compression permanent magnet variable frequency screw air compressors to provide continuous, efficient, and stable compressed air support for its high-end manufacturing lines.
It is understood that this customer is a typical high-precision manufacturing enterprise, with the production workshop operating under high load for extended periods. There are many air-consuming devices, running continuously for long hours, demanding extremely high stability from the compressed air system. Especially in the semiconductor industry, highly stable air supply capability is crucial.
Traditional single-stage compression air compressors, under prolonged high-load conditions, are prone to reduced compression efficiency, higher discharge temperatures, and increased energy consumption. During peak production periods, pressure fluctuations in the air system may affect the normal operation of some precision equipment.
Addressing the customer's industry characteristics and actual operating conditions, AirHorse Compressor provided a two-stage compression permanent magnet variable frequency solution, helping the customer solve core long-term production issues with a more efficient, more stable, and more energy-saving air power system.
Two-Stage Compression Significantly Improves Operating Efficiency Under High Load
For large semiconductor manufacturing enterprises, air compressors often need to run 24/7.
The AirHorse 132kW two-stage compression screw air compressor uses a "two-stage compression" method, splitting the compression process originally completed in one stage into two stages, making each stage's compression ratio more reasonable, effectively reducing energy loss during compression and improving air compression efficiency.
At the same time, because the compression process is smoother, the equipment operates at lower temperatures, helping to extend the main unit's service life and reduce the long-term failure rate.
For semiconductor production lines that operate under high load for long periods, two-stage compression technology means not only lower energy consumption but also more stable and reliable continuous air supply capability.
Permanent Magnet Variable Frequency System Precisely Matches Dynamic Air Demand
Semiconductor production equipment is complex, and different process stages have significantly varying demands for compressed air flow.
Traditional fixed-speed air compressors typically run at a constant speed. Even when air demand drops, the equipment still outputs at full load. Especially in large manufacturing plants, the electricity cost from long-term no-load operation is considerable.
The AirHorse 132kW two-stage permanent magnet variable frequency screw air compressor uses a high-efficiency permanent magnet synchronous motor and an intelligent variable frequency control system, automatically adjusting the operating frequency based on real-time workshop air demand to achieve dynamic air supply.
During peak demand, it responds quickly to ensure stable air supply; during low load, it automatically reduces energy consumption to avoid wasteful output.
This smarter operation mode not only improves the overall efficiency of the air system but also reduces the inrush current during equipment startup, making the entire machine run more smoothly.
For semiconductor enterprises that place a high priority on energy saving, consumption reduction, and green manufacturing, an intelligent variable frequency air system can effectively reduce long-term operating costs and improve overall energy efficiency.
Multi-Stage Air Purification System Maximizes Air Purity
Compared with general industrial manufacturing, the semiconductor industry has stricter requirements for compressed air cleanliness.
Oil, moisture, and tiny particles in the air, once they enter production equipment, can not only affect product precision but also contaminate precision components, impacting production yield.
Especially in precision electronics manufacturing, air quality is directly related to product stability and equipment operation safety.
To further improve the air system quality, the enterprise, in addition to configuring two AirHorse 132kW two-stage screw air compressors, also equipped an air receiver, a refrigerated air dryer, precision filters, and a desiccant air dryer, building a more comprehensive compressed air purification system.
The air receiver effectively stabilizes system pressure and reduces instantaneous air demand fluctuations;
The refrigerated air dryer is responsible for initially removing a large amount of moisture from the compressed air;
The multi-stage precision filters further remove oil mist and particulate impurities from the air;
The desiccant air dryer deeply reduces the air dew point, further improving air dryness and cleanliness.
After multi-stage purification treatment, the compressed air purity is maximized, providing more stable, safe, and clean high-quality air source for semiconductor production equipment.
At the same time, the coordinated operation of the two 132kW units further enhances the overall system's air supply stability and redundancy, providing more adequate air power support for the enterprise's future capacity expansion.
In the current context of rapid development in high-end manufacturing industries, more and more enterprises are beginning to pay attention to compressed air system upgrades. Because a truly efficient and stable air power system not only affects equipment operation efficiency but also directly relates to production costs and product quality.
Over the years, AirHorse Compressor has been deeply involved in various industries such as electronics manufacturing, semiconductors, laser cutting, machining, and new energy. With stable and reliable product performance and professional industry solutions, it has provided high-quality compressed air power support to many manufacturing enterprises.
In the future, AirHorse Compressor will continue to leverage its more efficient, more energy-saving, and more stable product technology to help more high-end manufacturing enterprises achieve green, intelligent, and high-quality development.
High Purity · High Stability · Low Energy Consumption | AirHorse Two-Stage Air Compressor Helps Shenzhen Semiconductor Enterprise Upgrade Air System
In recent years, with the rapid development of the semiconductor industry, fields such as chip manufacturing, electronic packaging, and precision components have seen continuously increasing demands for production environments and equipment stability. Especially in modern semiconductor factories, compressed air is directly related to product quality, equipment precision, and production continuity.
For the semiconductor industry, issues such as pressure fluctuations, insufficient air supply, or excessive oil/water content in the compressed air system can not only affect production precision but also cause equipment abnormalities, reduce yield, and even disrupt the stable operation of the entire production line.
Recently, a semiconductor enterprise in Shenzhen, aiming to further enhance the stability of its workshop air power system, introduced two AirHorse 132kW two-stage compression permanent magnet variable frequency screw air compressors to provide continuous, efficient, and stable compressed air support for its high-end manufacturing lines.
It is understood that this customer is a typical high-precision manufacturing enterprise, with the production workshop operating under high load for extended periods. There are many air-consuming devices, running continuously for long hours, demanding extremely high stability from the compressed air system. Especially in the semiconductor industry, highly stable air supply capability is crucial.
Traditional single-stage compression air compressors, under prolonged high-load conditions, are prone to reduced compression efficiency, higher discharge temperatures, and increased energy consumption. During peak production periods, pressure fluctuations in the air system may affect the normal operation of some precision equipment.
Addressing the customer's industry characteristics and actual operating conditions, AirHorse Compressor provided a two-stage compression permanent magnet variable frequency solution, helping the customer solve core long-term production issues with a more efficient, more stable, and more energy-saving air power system.
Two-Stage Compression Significantly Improves Operating Efficiency Under High Load
For large semiconductor manufacturing enterprises, air compressors often need to run 24/7.
The AirHorse 132kW two-stage compression screw air compressor uses a "two-stage compression" method, splitting the compression process originally completed in one stage into two stages, making each stage's compression ratio more reasonable, effectively reducing energy loss during compression and improving air compression efficiency.
At the same time, because the compression process is smoother, the equipment operates at lower temperatures, helping to extend the main unit's service life and reduce the long-term failure rate.
For semiconductor production lines that operate under high load for long periods, two-stage compression technology means not only lower energy consumption but also more stable and reliable continuous air supply capability.
Permanent Magnet Variable Frequency System Precisely Matches Dynamic Air Demand
Semiconductor production equipment is complex, and different process stages have significantly varying demands for compressed air flow.
Traditional fixed-speed air compressors typically run at a constant speed. Even when air demand drops, the equipment still outputs at full load. Especially in large manufacturing plants, the electricity cost from long-term no-load operation is considerable.
The AirHorse 132kW two-stage permanent magnet variable frequency screw air compressor uses a high-efficiency permanent magnet synchronous motor and an intelligent variable frequency control system, automatically adjusting the operating frequency based on real-time workshop air demand to achieve dynamic air supply.
During peak demand, it responds quickly to ensure stable air supply; during low load, it automatically reduces energy consumption to avoid wasteful output.
This smarter operation mode not only improves the overall efficiency of the air system but also reduces the inrush current during equipment startup, making the entire machine run more smoothly.
For semiconductor enterprises that place a high priority on energy saving, consumption reduction, and green manufacturing, an intelligent variable frequency air system can effectively reduce long-term operating costs and improve overall energy efficiency.
Multi-Stage Air Purification System Maximizes Air Purity
Compared with general industrial manufacturing, the semiconductor industry has stricter requirements for compressed air cleanliness.
Oil, moisture, and tiny particles in the air, once they enter production equipment, can not only affect product precision but also contaminate precision components, impacting production yield.
Especially in precision electronics manufacturing, air quality is directly related to product stability and equipment operation safety.
To further improve the air system quality, the enterprise, in addition to configuring two AirHorse 132kW two-stage screw air compressors, also equipped an air receiver, a refrigerated air dryer, precision filters, and a desiccant air dryer, building a more comprehensive compressed air purification system.
The air receiver effectively stabilizes system pressure and reduces instantaneous air demand fluctuations;
The refrigerated air dryer is responsible for initially removing a large amount of moisture from the compressed air;
The multi-stage precision filters further remove oil mist and particulate impurities from the air;
The desiccant air dryer deeply reduces the air dew point, further improving air dryness and cleanliness.
After multi-stage purification treatment, the compressed air purity is maximized, providing more stable, safe, and clean high-quality air source for semiconductor production equipment.
At the same time, the coordinated operation of the two 132kW units further enhances the overall system's air supply stability and redundancy, providing more adequate air power support for the enterprise's future capacity expansion.
In the current context of rapid development in high-end manufacturing industries, more and more enterprises are beginning to pay attention to compressed air system upgrades. Because a truly efficient and stable air power system not only affects equipment operation efficiency but also directly relates to production costs and product quality.
Over the years, AirHorse Compressor has been deeply involved in various industries such as electronics manufacturing, semiconductors, laser cutting, machining, and new energy. With stable and reliable product performance and professional industry solutions, it has provided high-quality compressed air power support to many manufacturing enterprises.
In the future, AirHorse Compressor will continue to leverage its more efficient, more energy-saving, and more stable product technology to help more high-end manufacturing enterprises achieve green, intelligent, and high-quality development.
