 This particular compilation of volume-controlled Counter Current Water Softening plants are chosen especially for dependable as well as cost-effective operation.
The benefit of using volume controlled water softeners is the softening resins are used to their total and entire capacity prior to the automated regeneration occurring.
The particular models are made as entirely automated duty as well as standby models offering 100% duty Twenty four hours every day.
The benefit of the water softener using Counter Current is that the service and regeneration flows are within opposing directions and thatt that salt usage will be minimised,
water condition can easily be managed in between regenerations and water consumption is generally decreased by as much as 80% in comparison with any traditional water softener.
Plant configuration will be versatile to match the plant location offered and also the plant is actually operated by way of an on board PLC whereby the softeners performance can easily be monitored.
Options:
Conductivity sensing throughout regeneration.
Simply by the installation of a conductivity meter to observe the rinse stages, water wastage is often decreased by 25-35 Percent.
The actual conductivity meter can calculate the softener rinse water value and can stop the actual rinse out routine whenever the conductivity meter reads a pre set amount, typically established at worst case inlet water quality.
Hardness Monitoring - In order to determine the caliber of the soft water a Testomat water hardness monitor is used. This could be set in place in order to trigger and alarm in the event the water hardness elevating over a pre set value. Additionally the actual read out at the monitor indicate the hardness of the water softener outlet stream within the standard display control panel.
Technical Data |
| Quantity-controlled/Duplex |
HVD 300 |
HVD 450 |
HVD 650 |
HVD 900 |
HVD 1200 |
| Max. flow rate, m3/h* |
10/15 |
18/21 |
25/30 |
32/39 |
41/50 |
| Pressure loss at max flow, bar |
1.1/1.5 |
1.1/1.5 |
1.1/1.5 |
1.1/1.5 |
1.1/1.5 |
| Capacity at 50ppm CaCo3, m3 |
300 |
446 |
652 |
906 |
1200 |
| Capacity at 100ppm CaCo3, m3 |
151 |
223 |
327 |
453 |
600 |
| Capacity at 200ppm CaCo3, m3 |
75 |
112 |
163 |
225 |
300 |
| Capacity at 300ppm CaCo3, m3 |
50 |
75 |
110 |
150 |
200 |
| Salt consumption per regeneration, kg. |
24 |
36 |
52 |
72 |
96 |
| Regeneration time, minutes |
50 |
55 |
60 |
65 |
70 |
| Temperature max., oC |
35 |
35 |
35 |
35 |
35 |
| Water Pressure max., bar |
10 |
10 |
10 |
10 |
10 |
| Pipe connection, DN |
65 |
65 |
65 |
80 |
100 |
| Outlet connection, DN |
40 |
40 |
40 |
40 |
40 |
| Plant height, mm |
2450 |
2500 |
2550 |
2600 |
2650 |
| Plant width, mm |
2800 |
3000 |
3120 |
3550 |
4000 |
| Plant depth, mm |
1400 |
1500 |
1600 |
1800 |
1900 |
| Salt tank height, mm |
1550 |
1550 |
1550 |
1550 |
1550 |
| Salt tank diameter, mm |
1040 |
1040 |
1040 |
1040 |
1040 |
| Content of salt tank, litres |
1150 |
1150 |
1150 |
1150 |
1150 |
| Consumption of water during regeneration, m3 |
0.8 |
1.1 |
1.6 |
2.2 |
3.0 |
| Consumption of water during regeneration with conductivity meter, m3 |
0.5 |
0.7 |
1 |
1.4 |
1.9 |
|
*At 15oC, 3.0 bar pressure, inlet softening plant (Regenerated state).
In certain instances the capacity indicated below may need to be reduced based on the total hardness, iron content and other contaminants.
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IWE Guarantee to beat any like for like quote for Water Softeners by 10% and any like for like service / maintenance contract by 20%
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