 |
| ■ Innovation |
|
| In the compressed air system, to prevent corrosion from condensed water is a very important issue. In order to deal with the task, |
| the commonly used tool is the air dryer. In this kind of equipments, huge volume, high pressure loss, complicated piping design, |
| corrosion and low pressure resistance in traditional types of heat exchangers are the main problems which engineers are of |
| heat exchangers are the main problems which engineers are trying to overcome. In 2006, Koari successfully developed plate |
| heatexchangers for air dryer systems with air flow rates between 2.4~7.0 m3/min (85~247cfm). With completed research and |
| tested data. Kaori proved uniqueness of the new design, and obtained patents in Taiwan, Japan and Korea, with pending |
| patents in China and USA. |
| |
|
| ■OPtimal
System Design |
|
| •Hot Gas Bypass Valve (HGBV) is integrated to prevent freezing |
| and breaking of AD. So the operation system can be |
| maintained working properly. |
•The controller of condenser fan makes it working stably under |
| |
low load and low temperature condition. |
| •Use hermetic, high-efficient circumgyrated compressor (R-407C). |
| •Pre-cooler, Separator, Evaporator, 3 in 1 Stainless Plate Heat |
| |
Exchanger. Excellent corrosion resistance and strength, easy |
| |
in maintenance, cleaning and operation. |
| |
|
| ■ Low Pressure Drop, Energy Saving |
|
| •Low Pressure Loss, Low Pressure Drop (below 0.1bar/cm2) Energy Saving. |
| •Use Parallel Condenser, which is better than Fin-Tube Heat Exchanger in overheat-release efficiency, and can |
|
save 60% space. |
|
| •New pre-cooler design, which can save more energy than Tradition Models. |
Air Dryer 
