Sustainable Energy Saving Solutions
As energy costs continue to escalate globally, having a negative impact on plant profitability and production costs, sustainability initiatives in plant operations must be implemented to maintain a competitive advantage.
As energy costs continue to escalate globally, having a negative impact on plant profitability and production costs, sustainability initiatives in plant operations must be implemented to maintain a competitive advantage.
Unit of Measure
Specifications
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ISO 8573-1: 2010 Air Quality Classes
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Additional Information
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Load Matching Performance
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Delivers ISO 8573-1 Quality Class Air
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Rebate Ready, Energy Saving Design
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Delivers Performance, Sustainability and Safety
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Our Commitment to You
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Note
Specifications
Rated Flow1 | N/A 360 scfm612 nm³/h |
Voltage at 50 Hz Frequency |
N/A 380 to 420 V |
Voltage at 60 Hz Frequency |
N/A 208 to 230 V460 V575 V |
Phase |
N/A 3 |
Frequency |
N/A 50 Hz60 Hz |
Power |
N/A 2.07 kW |
Inlet Connection Size |
N/A 2 in |
Inlet Connection Type |
N/A NPT |
Outlet Connection Size |
N/A 2 in |
Outlet Connection Type |
N/A NPT |
Height |
N/A 46 in |
Width |
N/A 35 in |
Depth |
N/A 32 in |
Weight |
N/A 540 lb |
Standard Δp3 Grade 92 | N/A 3.0 psig0.2 bar |
Optional Δp4 Grade 53 | N/A 4.1 psig0.3 bar |
Note for Connections |
N/A BSP connections available |
Maximum Working Pressure (Electric Drain) |
N/A 232 psig16.0 bar |
Minimum Working Pressure |
N/A 30 psig2.1 bar |
Maximum Inlet Air Temperature |
N/A 130 ºF54 ºC |
Minimum Inlet Air Temperature |
N/A 40 ºF4 ºC |
Maximum Ambient Air Temperature |
N/A 110 ºF43 ºC |
Minimum Ambient Air Temperature |
N/A 40 ºF4 ºC |
Series |
N/A HES |
Brands |
N/A Hankison® SPX® |
Industry Standards/Certifications |
N/A Compressed Air and Gas Institute (CAGI) CSA C22.2 No. 236-05 ISO 7183 ISO 8573:2010 UL 1995 |
ISO 8573-1: 2010 Air Quality Classes
Air Quality Class |
N/A 0 1 2 3 4 5 |
Maximum Number of Solid Particles per m³ for Class 0 and Particle Size 0.10 to 0.5 µ |
N/A As specified by the equipment user or supplier and more stringent than class 1 |
Maximum Number of Solid Particles per m³ for Class 1 and Particle Size 0.10 to 0.5 µ |
N/A ≤ 20000 |
Maximum Number of Solid Particles per m³ for Class 2 and Particle Size 0.10 to 0.5 µ |
N/A ≤ 400000 |
Maximum Number of Solid Particles per m³ for Class 0 and Particle Size 0.5 to 1.0 µ |
N/A As specified by the equipment user or supplier and more stringent than class 1 |
Maximum Number of Solid Particles per m³ for Class 1 and Particle Size 0.5 to 1.0 µ |
N/A ≤ 400 |
Maximum Number of Solid Particles per m³ for Class 2 and Particle Size 0.5 to 1.0 µ |
N/A ≤ 6000 |
Maximum Number of Solid Particles per m³ for Class 3 and Particle Size 0.5 to 1.0 µ |
N/A ≤ 90000 |
Maximum Number of Solid Particles per m³ for Class 0 and Particle Size 1.0 to 5.0 µ |
N/A As specified by the equipment user or supplier and more stringent than class 1 |
Maximum Number of Solid Particles per m³ for Class 1 and Particle Size 1.0 to 5.0 µ |
N/A ≤ 10 |
Maximum Number of Solid Particles per m³ for Class 2 and Particle Size 1.0 to 5.0 µ |
N/A ≤ 100 |
Maximum Number of Solid Particles per m³ for Class 3 and Particle Size 1.0 to 5.0 µ |
N/A ≤ 1000 |
Maximum Number of Solid Particles per m³ for Class 4 and Particle Size 1.0 to 5.0 µ |
N/A ≤ 10000 |
Maximum Number of Solid Particles per m³ for Class 5 and Particle Size 1.0 to 5.0 µ |
N/A ≤ 100000 |
Water Vapor Pressure Dew Point for Class 0 |
N/A As specified by the equipment user or supplier and more stringent than class 1 |
Water Vapor Pressure Dew Point for Class 1 |
N/A ≤ -70 ºC≤ -94 ºF |
Water Vapor Pressure Dew Point for Class 2 |
N/A ≤ -40 ºC≤ -40 ºF |
Water Vapor Pressure Dew Point for Class 3 |
N/A ≤ -20 ºC≤ -4 ºF |
Water Vapor Pressure Dew Point for Class 4 |
N/A ≤ +3 ºC≤ +37 ºF |
Water Vapor Pressure Dew Point for Class 5 |
N/A ≤ +7 ºC≤ +45 ºF |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 0 |
N/A As specified by the equipment user or supplier and more stringent than class 1 |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 1 |
N/A 0.01 mg/m³ |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 2 |
N/A 0.1 mg/m³ |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 3 |
N/A 1 mg/m³ |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 4 |
N/A 5 mg/m³ |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 0 (Weight/Weight) |
N/A As specified by the equipment user or supplier and more stringent than class 1. |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 1 (Weight/Weight) |
N/A 0.008 ppm |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 2 (Weight/Weight) |
N/A 0.08 ppm |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 3 (Weight/Weight) |
N/A 0.8 ppm |
Total Oil Concentration (Aerosol, Liquid and Vapor) for Class 4 (Weight/Weight) |
N/A 4 ppm |
Additional Information
Additional Information |
N/A
Air treatment manufacturers are challenged to design equipment that consumes less energy while operating at reduced load. Hankison® HES Series Refrigerated Compressed Air Dryers are the ideal solution! Sustainable energy saving solutions are the driving principle behind Hankison® product designs. The HES Series lowers power costs and improves productivity by matching power consumption to compressed air demand. |
Load Matching Performance
Load Matching Performance |
N/A
Non-cycling dryers operate with the refrigeration compressor running continuously, regardless of inlet load conditions. Minimal energy savings are realized from 100% down to 0% inlet air load. HES Series dryers automatically cycle (on/off) the refrigeration compressor in response to inlet load conditions. As the inlet air load is reduced, the power requirement to dry the air is matched in proportion to the demand. For example, at 60% inlet air load, a non-cycling dryer consumes 96% of the full load power consumption, a 4% energy savings. By comparison, at 60% inlet air load, an HES Series dryer consumes 62% of the full load power consumption, a 38% energy savings. The load matching design reduces power costs and saves energy. The example below provides annual HES energy savings with respect to non-cycling designs. |
Delivers ISO 8573-1 Quality Class Air
Delivers ISO 8573-1 Quality Class Air |
N/A
The International Organization for Standardization (ISO) identified three forms of contamination as common in compressed air systems - solid particles, water and oil. ISO Standard 8573-1: 2010 categorizes each contaminant and assigns a quality class, ranging from Class 0, the highest purity level, to Class 9, the most relaxed. The HES Series effectively removes all three contaminant forms in a single air treatment system. Innovation at Work
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Rebate Ready, Energy Saving Design
Optimized Cabinet Design |
N/A
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Stainless Steel Brazed Plate Heat Exchangers |
N/A
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Integral Filtration |
N/A
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No Air Loss Condensate Drains |
N/A
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Hermetically Sealed Refrigerant Compressor |
N/A
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Rugged Glycol Reservoir |
N/A
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Reliable Thermal Media Circulation Pump |
N/A
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Two Levels of Controls |
N/A
Standard Level I Easy to monitor controls provide dryer status
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Delivers Performance, Sustainability and Safety
Delivers Performance, Sustainability and Safety |
N/A
The Drying Process-Compressed Air Circuit:
The Cooling Process-Glycol Circuit: |
Our Commitment to You
Third Party Performance Certification |
N/A
Hankison® is a member of the Compressed Air and Gas Institute (CAGI), a non-profit organization that develops and publishes standards serving the compressed air industry. CAGI members may participate in an independently controlled Performance Verification Program for refrigerated air dryers in the flow range of 90 scfm to 675 scfm. Certification through a third party laboratory provides end-users an industry accepted basis for comparison of refrigerated air dryer performance and selection. Standardized performance data sheets are posted on the Hankison® website. |
Customer Support Solutions |
N/A As an extra measure of protection, Hankison® provides an extended warranty beyond the standard 2 year coverage. Purchase a maintenance kit on an annual basis and receive an additional 3 years of protection, parts and labor. All major components are covered. Receive automatic email reminders when it's time to service your product. |
- 1 Rated Flow Capacity - Conditions for rating dryers are in accordance with ISO 7183 (option A2) working conditions: inlet air temperature 100 ºF (38 ºC), inlet air pressure 100 psig (6.9 bar), ambient air temperature 100 ºF (38 ºC), 100% saturated air, operating on 60 Hz power supply.
- 2 Pressure drop inclusive of integral filtration
- 3 Cumulative pressure drop includes Grade 9 and Grade 5 filter/separator elements