Air tanks are used for several reasons. Among them : saving time and improving productivity!
WHAT IS IT ?
Refrigerant Dryer
AVAILABLE MODELS :
Different sizes
ADVANTAGES :
Energy savings | Low cost of ownership | Production Quality and Reliability | Reduction in emissions
FOR WHOM ?
For all applications using compressed air
Download the documentation
The New DWVS Refrigerant Dryer
The new Worthington Creyssensac DWVS refrigerant dryer is the total package: It offers a steady supply of high-quality air, energy savings of up to 60%, and a reduced carbon footprint.
By integrating variable speed drive (VSD) technology into a Worthington Creyssensac dryer for the first time, the DWVS matches its energy consumption to the compressed air demand. The result: Energy savings that were previously unimaginable as well as a much lower total cost of ownership.
But the DWVS does much more. Its consistently low dew point ensures a steady supply of Class 4 purity air – even in tough ambient conditions where other dryers fail.
In addition, the new VSD refrigerant dryer from Worthington Creyssensac is easy to operate with its intuitive Airlogic2T controller. In combination with remote monitoring and advanced connectivity, the performance of the DWVS can be analyzed and optimized from anywhere.
DWVS dryers do not just help companies operate more efficiently, they also contribute to a reduction in emissions. Compared to their competitors, the improved energy efficiency of the new VSD dryers results in a much lower TEWI-score (Total Equivalent Warming Impact) and a significantly decreased carbon footprint.
As a result, the DWVS helps companies achieve more ambitious climate goals and allows them to do their part for a cleaner environment.
Amazingly, Worthington Creyssensac even managed to pack all of this technology into a small frame that takes up less space on the shop floor. It’s just one more feature that shows that you really can’t go wrong with a DWVS.
Model |
Inlet flow for pressure dew point (PDP) of 3°C/37.4°F | Pressure drop at full flow |
Power consumption |
Max. working pressure |
Compressed air connections (NPT for UL version) |
||||
|
cfm |
m3/hr |
bar |
psi |
kW |
hp |
bar |
psi |
|
DWVS 36 |
212 |
360 |
0.16 |
2.3 |
0.66 |
0.9 |
14.5 |
210 |
G 1 ½” F |
DWVS 50 |
297 |
500 |
0.11 |
1.6 |
1.04 |
1.41 |
14.5 |
210 |
G 2” F |
DWVS 65 |
381 |
650 |
0.18 |
2.6 |
1.54 |
2.09 |
14.5 |
210 |
G 2” F |
DWVS 79 |
466 |
790 |
0.14 |
2 |
1.77 |
2.41 |
14.5 |
210 |
G 2 1/2” F |
DWVS 94 |
551 |
940 |
0.1 |
1.5 |
1.9 |
2.58 |
14.5 |
210 |
G 2 1/2” F |
DWVS 108 |
636 |
1080 |
0.18 |
2.6 |
2.64 |
3.59 |
14.5 |
210 |
G 2 1/2” F |
DWVS 79 G |
466 |
790 |
0.14 |
2 |
1.92 |
2.57 |
14.5 |
210 |
G 2 1/2" F |
DWVS 94 G |
551 |
940 |
0.1 |
1.5 |
2.63 |
3.53 |
14.5 |
210 |
G 2 1/2" F |
DWVS 108 G |
636 |
1080 |
0.18 |
2.6 |
3.36 |
4.50 |
14.5 |
210 |
G 2 1/2" F |
DWVS 130 |
763 |
1296 |
0.20 |
2.9 |
2.52 |
3.38 |
14 |
203 |
3" M |
DWVS 165 |
975 |
1656 |
0.20 |
2.9 |
2.61 |
3.50 |
14 |
203 |
3" M |
DWVS 190 |
1123 |
1908 |
0.20 |
2.9 |
3.00 |
4.02 |
14 |
203 |
3" M |
DWVS 240 |
1398 |
2376 |
0.20 |
2.9 |
4.55 |
6.10 |
14 |
203 |
DN 100 |
DWVS 315 |
1865 |
3168 |
0.20 |
2.9 |
5.43 |
7.28 |
14 |
203 |
DN 100 |
DWVS 360 |
2119 |
3600 |
0.20 |
2.9 |
5.76 |
7.72 |
14 |
203 |
DN 100 |