|
Model |
Water flow (T/Hr) |
Power (W) |
Dimensions (mm) |
Inlet/Outlet Size |
Max Pressure (Mpa) |
|
OZ-UV3T |
3 |
40×1 |
950×125×250 |
1″ |
0.8 |
|
OZ-UV5T |
5 |
40×2 |
950×138×280 |
1.2″ |
|
|
OZ-UV8T |
8 |
40×3 |
950×170×310 |
1.5″ |
|
|
OZ-UV12T |
12 |
40×4 |
950×195×335 |
2″ |
|
|
OZ-UV15T |
15 |
40×5 |
950×195×335 |
2″ |
|
|
OZ-UV20T |
20 |
80×3 |
950×205×405 |
2.5″ |
|
|
OZ-UV25T |
25 |
80×4 |
950×275×465 |
2.5″ |
|
|
OZ-UV30T |
30 |
120×3 |
1250×275×545 |
3″ |
UV System for Swimming Pool Water Disinfection
All swimming pools, whether municipal or private, require disinfection to reduce the micro biological counts of the water. Traditionally, chlorine based disinfectants are used.
These chlorine disinfectants cause problems due to the formation of chlorinated by-products, like chloramines.
The formation of chloramines is due to the reaction of chlorine with ammonia (or urea), which are shed by bathers. These chloramines cause "red eyes", skin irritation, the characteristic pool smell and are claimed to be carciogenic. By the use of an Ultra Violet disinfection system, the concentration of chloramines is significantly reduced.
During several test trails with UV disinfection on municipal swimming pools the overall chlorine consumption was reduced with an average of 50% without an increase of bacterial counts in the water. The concentration chloramines was even more drastically reduced, due to the breakdown of the formed chloramines by Ultra Violet light and the reduced formation of chloramines due to the lower chlorine dosage.
An additional advantage of the reduction of chloramines is the reduced aging of the fabrics in and around the swimming pool.
Air Cooled Ozone Generator