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The Baosi YNE117RA is a large-capacity, industrial-grade oil-injected rotary screw air compressor engineered for heavy-duty, continuous operation in demanding industrial environments. It represents a significant step up in performance and efficiency from standard single-stage models.
Technical Parameters
| Model | Power(kW) | Connection method | Dimension(mm) | Weight(kg) |
| YNE117RA | 22KW | direct drive | 398*260*210 | 51 |
Product Characteristics
Advanced Two-Stage Compression Air End: This is the defining feature of the "R" series and a major differentiator. The air compresses in two distinct stages with an intercooler between them. This process significantly reduces energy consumption, lowers operational temperatures and mechanical stress on each stage, and achieves superior volumetric efficiency compared to single-stage compressors.
Ultra-High Efficiency Permanent Magnet Synchronous Motor (PMSM): Equipped with a premium, low-speed PMSM motor. This motor technology offers a near-unity power factor, exceptional torque performance, and superior energy efficiency across its entire operational range, particularly under partial load conditions.
Sophisticated Intelligent Control System: Features a state-of-the-art, large touchscreen controller (likely with IoT capabilities). It provides comprehensive real-time monitoring of all operational parameters (pressure, temperature, energy consumption, maintenance status), advanced diagnostics, and enables remote monitoring and predictive maintenance for seamless integration into smart factory systems.
High-Efficiency Forced-Draft Cooling System: Utilizes a robust, independent forced-draft cooling system with a large, vertically arranged cooler. This design ensures maximum heat dissipation efficiency, maintains optimal operating temperatures even in extreme ambient conditions (up to 46°C / 115°F), and is crucial for the longevity of the two-stage system.
Heavy-Duty Industrial Construction: Built to the highest industrial standards with a reinforced steel chassis and a full-height, acoustically insulated canopy. This construction ensures structural integrity, minimizes vibration, protects internal components, and provides easy, safe access for maintenance.
System-Wide Optimization: Every component, from oversized intake filters and minimal-bend piping to a high-capacity oil separation system, is engineered for maximum flow efficiency and minimal pressure drop, which directly contributes to lower energy consumption.
Maximum Energy Savings & ROI: The core advantage is its exceptional energy efficiency. The synergy between the two-stage compression and the high-efficiency PMSM motor can result in energy savings of 10-15% or more compared to efficient single-stage compressors. This offers a very rapid return on investment (ROI) through drastically reduced electricity bills.
Unrivaled Reliability for Critical Operations: The two-stage design inherently reduces the load and thermal stress on each compression stage, leading to less wear and a significantly longer lifespan for core components. This engineering ensures maximum uptime for processes where air supply is indispensable.
Exceptional Performance Stability: Provides extremely stable discharge pressure and air flow, even with significant demand fluctuations. This ensures consistent air quality and pressure for sensitive manufacturing tools and automated processes.
Lowest Total Cost of Ownership (TCO): The YNE117RA is an investment in lowering the TCO. This is achieved through radical energy savings, extended service intervals due to lower operating temperatures, superior reliability that minimizes downtime, and long component life.
Smart Connectivity for Industry 4.0: The advanced control system transforms the compressor into a connected data source. It enables centralized management, data-driven decision-making, predictive maintenance scheduling, and optimization of the entire compressed air system.
Heavy Manufacturing: Automotive manufacturing plants (e.g., paint shops, assembly lines), large metal fabrication facilities, and steel service centers.
Mining & Mineral Processing: Providing air for large pneumatic networks, grinding mills, and flotation cells in mining operations.
Chemical & Petrochemical Industries: For process air and instrument air in refining and processing applications where reliability is paramount.
Power Generation Plants: Serving as the primary air source for soot blowing, ash handling, and instrument air in large power stations.
Large Cement & Glass Plants: Powering extensive production processes and control systems.
Large-Scale Workshops & Shipyards: Where a central, highly reliable source of high-volume compressed air is required to power numerous tools and systems simultaneously.
The Baosi YNE117RA is a large-capacity, industrial-grade oil-injected rotary screw air compressor engineered for heavy-duty, continuous operation in demanding industrial environments. It represents a significant step up in performance and efficiency from standard single-stage models.
Technical Parameters
| Model | Power(kW) | Connection method | Dimension(mm) | Weight(kg) |
| YNE117RA | 22KW | direct drive | 398*260*210 | 51 |
Product Characteristics
Advanced Two-Stage Compression Air End: This is the defining feature of the "R" series and a major differentiator. The air compresses in two distinct stages with an intercooler between them. This process significantly reduces energy consumption, lowers operational temperatures and mechanical stress on each stage, and achieves superior volumetric efficiency compared to single-stage compressors.
Ultra-High Efficiency Permanent Magnet Synchronous Motor (PMSM): Equipped with a premium, low-speed PMSM motor. This motor technology offers a near-unity power factor, exceptional torque performance, and superior energy efficiency across its entire operational range, particularly under partial load conditions.
Sophisticated Intelligent Control System: Features a state-of-the-art, large touchscreen controller (likely with IoT capabilities). It provides comprehensive real-time monitoring of all operational parameters (pressure, temperature, energy consumption, maintenance status), advanced diagnostics, and enables remote monitoring and predictive maintenance for seamless integration into smart factory systems.
High-Efficiency Forced-Draft Cooling System: Utilizes a robust, independent forced-draft cooling system with a large, vertically arranged cooler. This design ensures maximum heat dissipation efficiency, maintains optimal operating temperatures even in extreme ambient conditions (up to 46°C / 115°F), and is crucial for the longevity of the two-stage system.
Heavy-Duty Industrial Construction: Built to the highest industrial standards with a reinforced steel chassis and a full-height, acoustically insulated canopy. This construction ensures structural integrity, minimizes vibration, protects internal components, and provides easy, safe access for maintenance.
System-Wide Optimization: Every component, from oversized intake filters and minimal-bend piping to a high-capacity oil separation system, is engineered for maximum flow efficiency and minimal pressure drop, which directly contributes to lower energy consumption.
Maximum Energy Savings & ROI: The core advantage is its exceptional energy efficiency. The synergy between the two-stage compression and the high-efficiency PMSM motor can result in energy savings of 10-15% or more compared to efficient single-stage compressors. This offers a very rapid return on investment (ROI) through drastically reduced electricity bills.
Unrivaled Reliability for Critical Operations: The two-stage design inherently reduces the load and thermal stress on each compression stage, leading to less wear and a significantly longer lifespan for core components. This engineering ensures maximum uptime for processes where air supply is indispensable.
Exceptional Performance Stability: Provides extremely stable discharge pressure and air flow, even with significant demand fluctuations. This ensures consistent air quality and pressure for sensitive manufacturing tools and automated processes.
Lowest Total Cost of Ownership (TCO): The YNE117RA is an investment in lowering the TCO. This is achieved through radical energy savings, extended service intervals due to lower operating temperatures, superior reliability that minimizes downtime, and long component life.
Smart Connectivity for Industry 4.0: The advanced control system transforms the compressor into a connected data source. It enables centralized management, data-driven decision-making, predictive maintenance scheduling, and optimization of the entire compressed air system.
Heavy Manufacturing: Automotive manufacturing plants (e.g., paint shops, assembly lines), large metal fabrication facilities, and steel service centers.
Mining & Mineral Processing: Providing air for large pneumatic networks, grinding mills, and flotation cells in mining operations.
Chemical & Petrochemical Industries: For process air and instrument air in refining and processing applications where reliability is paramount.
Power Generation Plants: Serving as the primary air source for soot blowing, ash handling, and instrument air in large power stations.
Large Cement & Glass Plants: Powering extensive production processes and control systems.
Large-Scale Workshops & Shipyards: Where a central, highly reliable source of high-volume compressed air is required to power numerous tools and systems simultaneously.
