| |
| We are engaged in manufacturing and supplying of a wide range of Two Bed DM plants and mixed bed plants. Ion Exchange process utilizes ion exchange resin for the removal of organic and inorganic contaminants in surface and groundwater sources to meet industrial water standards. Dimeralization plants are used for the purpose of TDS reduction to required levels. In these plants, more impurities are replaced by hydrogen and hydroxyl ions, and the water that is produced is extremely pure. |
| |
| The Systems have Following Configuration based on the water report or parameters : |
| |
|
 |
SAC – SBA |
|
|
SAC – WBA – SBA |
|
|
WAC – SAC – WBA – SBA – MB1 – MB2 |
|
|
WAC – SAC – DG – WBA – SBA – MB1 – MB2 |
|
|
| |
| Watermax Offers Standard DM Plants with FRP / Mild Steel Rubber Lining & SS 316 L (Quartz Lined) construction. Our DM Plants (Two Bed & Mixed Bed units) are available in various sizes having cation and anion exchanger unit with 200 mm to 2000 mm diameter with either Valves or Multi Port Valve depending upon the sizes and customer requirement. |
| |
| In Two Bed DM Plant, Strong Acid Cation Exchanger and Strong Base Anion Exchanger resin are used for reducing Total Dissolved Solids up to 2 - 5 ppm. To check the treated water quality at the outlet, conductivity meter is provided. Degasification unit is also provided to decrease the load on Anion Unit. |
| Mixed Bed Units are used in series with Two Bed DM Plant as a polisher unit which can produce treated water having conductivity < 1 mS/cm. |
| Cation Polisher Unit is also available to achieve Acidic Water Quality for Specific applications. |
| DM Plant produces Treated water having Conductivity less than 10 mS/cm (for Two Bed) and less than 1 mS/cm with pH as desired. |
| |
| The Two most common types of deionization are : |
| |
|
|
Two-bed deionization |
|
|
Mixed-bed deionization |
|
|
 |
| Two-bed deionization : |
| |
| Watermax two-bed deionizer consists of two vessels - one containing a cation-exchange resin in the hydrogen (H+) form and the other containing an anion resin in the hydroxyl (OH-) form. Water flows through the cation column, whereupon all the cations are exchanged for hydrogen ions. To keep the water electrically balanced, for every monovalent cation, e.g. Na+, one hydrogen ion is exchanged and for every divalent cation, e.g. Ca2+, or Mg2+, two hydrogen ions are exchanged. The same principle applies when considering anion-exchange. The decationised water then flows through the anion column. This time, all the negatively charged ions are exchanged for hydroxide ions which then combine with the hydrogen ions to form water (H2O). |
 |
|
| Mixed-bed deionization : |
| |
|
| |
| STANDARD FEATURES |
| |
|
|
Auto / Manual regeneration when water quality falls below pre-set limit |
|
|
Constant monitoring of water quality |
|
|
Solid-state reliability for trouble-free service |
|
|
No untreated by-pass water |
|
|
Compact, non-corrosive components |
|
|
Fiberglass tanks for corrosion resistance |
|
|
Convenient, modular construction |
|
|
Optional recirculation pumps |
|
|
Parallel or Series Regeneration |
|
|
Programmable purge prior to regeneration |
|
|
|
| |
| Major Applications : |
| |
| Boilers feed water, Textiles, Pharmaceuticals, Chemicals, Breweries, Swimming pools, Potable Water, Hospitals, Automobile, and Battery, Fertilizers. , Pharmaceutical Industry, Power Plant, Oil & Gas sector, Chemical Industries, Textile Industries |
|
| |
