Where Ideas Become Solutions
SPX® is a place where innovation is valued, and the real needs of business are understood. We transform ideas into powerful solutions to help our customers meet their goals, overcome day-to-day challenges and thrive in a complex, always-changing marketplace.
SPX® is a place where innovation is valued, and the real needs of business are understood. We transform ideas into powerful solutions to help our customers meet their goals, overcome day-to-day challenges and thrive in a complex, always-changing marketplace.
Unit of Measure
Specifications
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ISO 8573-1: 2010 Air Quality Classes
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Rebate Ready
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Operating Conditions
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Additional Information
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Saving Energy is a Global Priority
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Meeting The Needs of Today and Tomorrow
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Measurable Energy Savings
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Load Matching Performance
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Innovation By Design
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Customer Driven Solutions
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Note
Specifications
Maximum Working Pressure |
N/A 232 psig16 bar |
Minimum Working Pressure |
N/A 30 psig2 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 |
Rated Flow1 | N/A 3000 scfm5097 nm³/h |
Standard Voltage at 50 Hz Frequency |
N/A 380 to 420 V |
Standard Voltage at 60 Hz Frequency |
N/A 460 V |
Standard Phase |
N/A 3 |
Standard Frequency |
N/A 50 Hz60 Hz |
Optional Voltage |
N/A 230 V575 V |
Optional Phase |
N/A 3 |
Optional Frequency |
N/A 60 Hz |
Note for Optional Voltages |
N/A 575/3/60 models utilize mounted transformers to step-down incoming power to 460/3/60; 230/3/60 models utilize mounted transformers to step-up to 460/3/60. |
Power2 | N/A 18.20 kW |
Inlet Connection Size |
N/A 6 in |
Inlet Connection Type |
N/A Flange |
Outlet Connection Size |
N/A 6 in |
Outlet Connection Type |
N/A Flange |
Height |
N/A 85 in |
Width |
N/A 55 in |
Depth |
N/A 60 in |
Weight |
N/A 2646 lb |
Note for Connections |
N/A DIN Flanges available. |
Series |
N/A HES |
Brands |
N/A Hankison® SPX® |
Industry Standards/Certifications |
N/A CSA (CAN/CSA-C22.2 No.236-05) ISO 8573-1 UL |
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 |
Standard Filtration Delivers ISO Quality Class |
N/A Oil-4 Pressure Dew Point-4 to 5 Solids-3 |
Optional Filtration Provides ISO Quality Class |
N/A Oil-1 Pressure Dew Point-4 to 5 Solids-1 |
Rebate Ready
Average Airflow |
N/A 0 %25 %50 %75 %100 % |
Energy Consumption at 100% Average Airflow |
N/A 100 % |
Energy Consumption at 75% Average Airflow |
N/A 78 % |
Energy Consumption at 50% Average Airflow |
N/A 54 % |
Energy Consumption at 25% Average Airflow |
N/A 33 % |
Energy Consumption at 0% Average Airflow |
N/A 9 % |
Energy Savings per Year at 75% Average Airflow |
N/A 1408 USD |
Energy Savings per Year at 50% Average Airflow |
N/A 4373 USD |
Energy Savings per Year at 25% Average Airflow |
N/A 6855 USD |
Energy Savings per Year at 0% Average Airflow |
N/A 9820 USD |
Rebate Ready |
N/A The projects annualized cost savings of HES Series refrigerated air dryers as compared to non-cycling designs. |
Operating Conditions
Inlet Temperature |
N/A 100 ºF37 ºC |
Ambient Temperature |
N/A 100 ºF37 ºC |
Operating Pressure |
N/A 100 psig6.9 bar |
Working Hours per Year |
N/A 8760 hours |
Energy Cost per kWh |
N/A 0.10 USD |
Additional Information
Additional Information |
N/A
Utilizing the latest technological advancements, HES Series refrigerated dryers offer a new way of thinking and an innovative approach to efficiently treat compressed air. In a typical manufacturing facility, up to 30% of electricity consumed is for generating and treating compressed air. To reduce total cost of operation and qualify for utility company incentive programs, proper air treatment equipment selection and application is required. |
Saving Energy is a Global Priority
Saving Energy is a Global Priority |
N/A
Compressed air users world-wide are integrating energy management best practices into their operations, with the goal of reducing power consumption and lowering their energy costs. Demonstrating our commitment to continuous development of sustainable solutions, the HES Series significantly lowers total cost of operation by consuming electrical power (kWh) in direct proportion to real-time demand. |
Meeting The Needs of Today and Tomorrow
Meeting The Needs of Today and Tomorrow |
N/A We believe our customers are partners in the innovation process. Insight is continually gathered to understand the end-user experience of today and gain vision to the opportunities of tomorrow. |
Measurable Energy Savings
Measurable Energy Savings |
N/A In a typical manufacturing facility, up to 30% of electricity consumed is for generating and treating compressed air. To reduce total cost of operation and qualify for utility company incentive programs, proper air treatment equipment selection and application is required. |
Load Matching Performance
Load Matching Performance |
N/A
Compressed air load profiles in most manufacturing facilities fluctuate. The HES Series provides cost-effective energy savings by matching electrical power consumed in direct proportion to incoming air demand. Near linear load matching is achieved from 0 to 100%. Digital scroll refrigerant compressors precisely match inlet heat load on the dryer with the required input power...No more...No less. |
Innovation By Design
Sustainable Energy Saving Solutions |
N/A
To maximize full energy savings potential, refrigeration systems are designed with digital scroll compressors that load and unload based on real-time air load demand.
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Engineered for Premium Performance |
N/A
Compressed air is chilled to the specified pressure dew point in stainless steel brazed plate heat exchangers, offering corrosion resistance for the life of the dryer.
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Advanced Cabinet Design |
N/A
The unique cabinet construction enables 360-degree access to critical components.
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Clean, Dry, Filtered Air |
N/A
HES series dryers are self-contained air treatment stations, furnished with integrated high performance filtration.
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System Protection on Demand |
N/A
No-air-loss, level actuated demand drains efficiently remove condensate from the system, without loss of compressed air.
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Best-In-Class Warranty |
N/A
As an extra measure of protection, Hankison® offers an extended warranty beyond the standard 2 year coverage.
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Customer Driven Solutions
Energy Management Monitor (EMMConnect™) |
N/A
HES Series dryers are equipped with EMMConnect™ controls to monitor system performance, manage operation of the digital scroll compressor and track energy savings. The operator interface features a membrane touch panel, with diagnostics communicated in a user-friendly text display. A bank of light emitting diodes operate sequentially providing indication of dew point temperature in real-time. |
Advanced, User Friendly Control |
N/A
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- 1 Dryer flow ratings are in accordance with ISO 7183 (option A2) conditions: inlet air at 100 psig (7 bar) and 100 ºF (38 ºC) saturated, ambient air at 100 ºF (38 ºC), operating on 60 Hz power supply.
- 2 Full flow kW value operating on 460/3/60 Hz power supply.