Product Features
Cooling medium: Using water as the cooling medium, water cooling is more efficient in high temperature environments compared to air cooling.
High efficiency: The water-cooled design enables it to maintain efficient cooling capacity at higher ambient temperatures, suitable for applications with strict requirements for temperature control.
Space saving: Compared with air cooling systems, water-cooled air dryers do not require large cooling fans, occupy less space, and are suitable for environments with limited space.
Stable performance: The water-cooled system can provide stable cooling effects when the external ambient temperature changes, ensuring the drying quality of the compressed air.
| Model | Air | Capacity | Dimension mm | Weight | Recommended | Recommended | |||
| Connection | m³/min | CFM | L | W | H | (kg) | Pre-Filter Model | After-Filter Model | |
| RSLF-06-SSD | Rc1/2" | 0.6 | 21 | 500 | 250 | 500 | 25 | RSG-AO-0017G/V2 | RSG-AA-0017G/V2 |
| RSLF-09-SSD | Rc1/2" | 0.9 | 32 | 500 | 250 | 500 | 25 | RSG-AO-0017G/V2 | RSG-AA-0017G/V2 |
| RSLF-12-SSD | Rc1/2" | 1.2 | 42 | 600 | 310 | 500 | 30 | RSG-AO-0030G/V2 | RSG-AA-0030G/V2 |
| RSLF-15-SSD | Rc1/2" | 1.5 | 53 | 600 | 310 | 500 | 30 | RSG-AO-0030G/V2 | RSG-AA-0030G/V2 |
| RSLF-18-SSD | Rc1/2" | 1.8 | 64 | 600 | 310 | 500 | 30 | RSG-AO-0030G/V2 | RSG-AA-0030G/V2 |
| RSLF-24-SSD | Rc3/4" | 2.4 | 85 | 750 | 360 | 550 | 50 | RSG-AO-0058G/V2 | RSG-AA-0058G/V2 |
| RSLF-30-SSD | Rc3/4" | 3 | 106 | 750 | 360 | 550 | 50 | RSG-AO-0058G/V2 | RSG-AA-0058G/V2 |
| RSLF-36-SSD | Rc3/4" | 3.6 | 127 | 750 | 360 | 550 | 55 | RSG-AO-0058G/V2 | RSG-AA-0058G/V2 |
| RSLF-40-SSD | Rc3/4" | 4 | 141 | 750 | 360 | 550 | 55 | RSG-AO-0080G/V2 | RSG-AA-0080G/V2 |
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Rated Conditions |
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Working pressure : 0.7MPag / 100psig |
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Inlet temp : 38 ℃ / 100 ℉ |
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Ambient temp : 38℃ / 100 ℉ |
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Working Range |
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Max. working pressure : 1.6MPag / 232psig |
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Max. inlet temperature : 60 ℃ / 140 ℉ |
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Max. ambient temperature : 50℃ / 122 ℉ |
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Min. ambient temperature : 5℃ / 41 ℉ |
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Avaliable |
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Higher working pressure |
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Different power supply |
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Timed drain or zero loss drain |
Correction Factors
Actual Capacity ( m³/min ) = Nominal Capacity × KA × KB × KC
| Working Pressure (KA) | Mpag | 0.3 | 0.4 | 0.5 | 0.6 | 0.7 | 0.8 | 0.9 |
| psig | 44 | 58 | 73 | 87 | 102 | 116 | 131 | |
| CFP | 0.76 | 0.86 | 0.92 | 0.93 | 1 | 1.04 | 1.08 | |
| Mpag | 1 | 1.1 | 1.2 | 1.3 | 1.4 | 1.5 | 1.6 | |
| psig | 145 | 160 | 174 | 189 | 203 | 218 | 232 | |
| CFP | 1.11 | 1.15 | 1.18 | 1.22 | 1.25 | 1.28 | 1.3 | |
| Inlet Temperature (KB) | ℃ | 35 | 38 | 40 | 46 | 49 | 54 | 60 |
| ℉ | 95 | 100 | 104 | 115 | 120 | 129 | 140 | |
| CFT | 1.11 | 1 | 0.92 | 0.76 | 0.69 | 0.56 | 0.46 | |
| Ambient Temperature (KC) | ℃ | 25 | 30 | 35 | 38 | 40 | 45 | 50 |
| ℉ | 77 | 86 | 95 | 100 | 104 | 113 | 122 | |
| CFT | 1.15 | 1.1 | 1.02 | 1 | 0.89 | 0.79 | 0.69 |
FAQ:
1. What is the cooling medium used in a water-cooled air dryer?
A water-cooled air dryer uses water as the cooling medium. This method is more efficient than air cooling, especially in high-temperature environments, due to water's superior heat absorption capabilities.
2. How does a water-cooled air dryer maintain efficiency in high temperatures?
The water-cooled design allows the air dryer to maintain efficient cooling capacity even at higher ambient temperatures. This is because water can absorb and dissipate heat more effectively than air, ensuring reliable performance in demanding temperature conditions.
3. What are the space-saving benefits of using a water-cooled air dryer?
They are space-efficient because they do not require large cooling fans. This compact design makes them suitable for environments with limited space, such as small industrial facilities or areas with dense equipment.
4. How does a water-cooled air dryer ensure stable performance despite temperature changes?
They provide stable cooling effects regardless of external ambient temperature changes. The system's reliance on water for cooling helps maintain consistent air drying quality, even when external conditions fluctuate.
5. In what types of environments is a water-cooled air dryer most suitable?
Water-cooled air dryers are ideal for environments with high temperatures, limited space, and strict requirements for air drying quality. They are commonly used in industrial settings, food and beverage processing, pharmaceutical manufacturing, and energy facilities.
6. What are the main advantages of using a water-cooled air dryer?
The main advantages include high efficiency in cooling, space-saving design, and stable performance. These features make water-cooled air dryers particularly effective in challenging environments where temperature control and space are critical factors.
7. What maintenance is required for a water-cooled air dryer to ensure optimal performance?
Regular maintenance involves checking and cleaning the cooling water system, replacing water separators, and monitoring system pressure and temperature. Proper maintenance ensures the water-cooled air dryer operates efficiently and extends its service life.
