Product Overview
Type: Refrigerated dryer.
Principle: The compressed air exchanges heat with the refrigerant in the heat exchanger, lowers the air temperature, condenses and discharges the moisture, and obtains dry compressed air.
Efficient heat exchange: Aluminum materials have good thermal conductivity, and the plate-fin structure increases the heat exchange area and improves the heat exchange efficiency.
Compact structure: The plate-fin structure makes the heat exchanger compact and saves space.
Corrosion resistance: Aluminum alloy materials have good corrosion resistance, which extends the service life of the equipment.
Low pressure loss: The plate-fin structure is reasonably designed to reduce air flow resistance and pressure loss.
Features
High efficiency and energy saving: The high efficiency heat exchange performance of the plate-fin aluminum heat exchanger reduces energy consumption and saves operating costs.
Stable and reliable: Imported key components are used, the control system is advanced, and the operation is stable and reliable.
Compact design: The plate-fin heat exchanger is small in size, the whole machine structure is compact, and the footprint is small.
Easy to maintain: Reasonable design, easy to disassemble and maintain.
Environmentally friendly refrigerant: Environmentally friendly refrigerant is used, which meets environmental protection requirements.
Wide application: Suitable for various occasions where dry compressed air is required.
Advantages
Compared with the traditional shell and tube heat exchanger refrigeration dryer
Higher heat transfer efficiency: The plate-fin heat exchanger has higher heat transfer efficiency and higher energy efficiency ratio.
More compact structure: Smaller size, saving space.
Lighter weight: Aluminum alloy material is light in weight, easy to install and transport.
Compared with adsorption dryer
Lower investment cost: The one-time investment cost is relatively low.
Simpler maintenance: Maintenance is simpler, no need to frequently replace the adsorbent.
Technical Specification
| Model | Air | Capacity | Dimension mm | Weight | Recommended | Recommended | |||
| Connection | m³/min | CFM | L | W | H | kg | Pre-Filter Model | After-Filter Model | |
| RSLF-60-PD | Rc1-1/2" | 6.5 | 230 | 750 | 592 | 913 | 78 | RSG-AO-0145G/V2 | RSG-AA-0145G/V2 |
| RSLF-80-PD | Rc1-1/2" | 8.8 | 311 | 750 | 592 | 913 | 80 | RSG-AO-0145G/V2 | RSG-AA-0145G/V2 |
| RSLF-100-PD | Rc1-1/2" | 11 | 388 | 750 | 592 | 913 | 85 | RSG-AO-0220G/V2 | RSG-AA-0220G/V2 |
| RSLF-120-PD | Rc2" | 13 | 459 | 1000 | 710 | 1030 | 130 | RSG-AO-0220G/V2 | RSG-AA-0220G/V2 |
| RSLF-150-PD | Rc2" | 17 | 600 | 1000 | 710 | 1030 | 140 | RSG-AO-0330G/V2 | RSG-AA-0330G/V2 |
| RSLF-200-PD | Rc2" | 22 | 777 | 1000 | 710 | 1030 | 150 | RSG-AO-0330G/V2 | RSG-AA-0330G/V2 |
| RSLF-250-PD | Rc2-1/2" | 27 | 953 | 1000 | 820 | 1600 | 250 | RSG-AO-0430G/V2 | RSG-AA-0430G/V2 |
| RSLF-300-PD | Rc2-1/2" | 33 | 1165 | 1000 | 820 | 1600 | 260 | RSG-AO-0620G/V2 | RSG-AA-0620G/V2 |
| RSLF-350-PD | Rc2-1/2" | 37 | 1306 | 1000 | 820 | 1600 | 270 | RSG-AO-0620G/V2 | RSG-AA-0620G/V2 |
| RSLF-400-PD | DN100 | 45 | 1589 | 1250 | 1120 | 1750 | 500 | RSG-AO-0830F/V2 | RSG-AA-0830F/V2 |
| RSLF-500-PD | DN100 | 55 | 1942 | 1250 | 1120 | 1750 | 510 | RSG-AO-0830F/V2 | RSG-AA-0830F/V2 |
| RSLF-600-PD | DN100 | 65 | 2295 | 1250 | 1120 | 1750 | 550 | RSG-AO-1000F/V2 | RSG-AA-1000F/V2 |
| RSLF-700-PD | DN125 | 73 | 2578 | 1250 | 1120 | 1750 | 580 | RSG-AO-1200F/V2 | RSG-AA-1200F/V2 |
| RSLF-800-PD | DN150 | 80 | 2825 | 2000 | 1460 | 1770 | 800 | RSG-AO-1300F/V2 | RSG-AA-1300F/V2 |
| RSLF-900-PD | DN150 | 90 | 3178 | 2000 | 1460 | 1770 | 810 | RSG-AO-1950F/V2 | RSG-AA-1950F/V2 |
| RSLF-1000-PD | DN150 | 100 | 3531 | 2000 | 1460 | 1770 | 850 | RSG-AO-1950F/V2 | RSG-AA-1950F/V2 |
| RSLF-1200-PD | DN150 | 120 | 4237 | 2000 | 1460 | 1770 | 870 | RSG-AO-1950F/V2 | RSG-AA-1950F/V2 |
| RSLS-1500-PD | DN200 | 150 | 5297 | 2135 | 1225 | 1800 | 1150 | RSG-AO-2500F/V2 | RSG-AA-2500F/V2 |
| RSLS-1800-PD | DN200 | 180 | 6356 | 2335 | 1225 | 1800 | 1350 | RSG-AO-3250F/V2 | RSG-AA-3250F/V2 |
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Rated Conditions |
Avaliable |
 |
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Working pressure : 0.7MPag / 100psig |
Higher working pressure |
Different power supply |
|
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Inlet temp : 38 ℃ / 100 ℉ |
Zero loss drain |
Cooling water version from 120 to 1800 |
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Ambient temp : 38℃ / 100 ℉ |
Cooling water temperature : 32 ℃ / 90 ℉ |
Correction Factors
Actual Capacity ( m³/min ) = Nominal Capacity × KA × KB × KC ( or 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 | ||
| psig | 145 | 160 | 174 | 189 | 203 | 218 | ||
| CFP | 1.11 | 1.15 | 1.18 | 1.22 | 1.25 | 1.28 |
| 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 |
