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1 Products availableOur product range contains a wide range of Demineralizationb PLANT, Hydropneumatic Booster Pressure PLANT and Pressure Boosting Set
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| Product Description :- Industrial Upflow Softeners are manually operated and designed to suite the requirements of medium scale industries. They incorporate the prove technique of counter flow regeneration. The unit thus produce treated water with low residual hardness throughout the cycle. A strongly acidic cation exchanger in sodium form is used to exchange sodium ions for the hardness forming calcium and magnesium, thus producing soft water. At the end of each service cycle, the ion exchanger is regenerated with sodium chloride solution, after which the unit is ready for the next service cycle. For introducing the brine into the unit, a hydraulic ejector with control valve, suction and delivery piping are provided. A combined salt tank which can hold sufficient quantity of salt for a number of regeneration is provided. The unit is supplied in a knocked-down conditions and is easily assembled at site. To meet special requirement, these softeners can be supplied for automatic operation. Advantages :- Consistent treated water qualityEasy to install and operateProduces clear, soft and non-scale forming waterLow operating costsIncorporates high capacity polystyrene bead type cation exchange resin which is remarkablystable and has a long life Applications :- Boiler feedProcess water in textile millsBeverage manufactureLaundry and air conditioning plantsCooling tower make-upJacket coolingBungalows |
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| Product Description :- Pure Sip Series of Reverse Osmosis are field proven, highly reliable and cost effective answer to treat a wide range of brackish waters. Designed with flexibility, the series utilize state-of-the-art spiral wound reverse osmosis membranes to suit a given application. These systems can remove 90%-95% of total dissolved salts. Features :- Product flow rate 1.5 - 32 m3/hr ( 4.4 - 140 GPM)Salt rejection ranges from 90 to 95% depending upon feed water compositionProduct recovery ranges from 50 to 80% based on feed water compositionElectrical 415V, 3 phase, 50HzConcentrate discharge directed to drain at 'O' ring psi Applications :- Ultrapure water for electronic industryUltrapure water for pharmaceutical industriesProcess water for manufacturing plantsBoiler feed waterBeverage and food processing industryDrinking waterWastewaterBio-technologyMineral Water |
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| Two-bed Deionization :- The 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 desalinized 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:- In mixed-bed deionizers the cation exchange and anion-exchange resins are intimately mixed and contained in a single pressure vessel. The thorough mixture of cation-exchangers and anion-exchangers in a single column makes a mixed-bed deionizer equivalent to a lengthy series of two-bed plants. As a result, the water quality obtained from a mixed-bed deionizer is appreciably higher than that produced by a two-bed plant. The vessel can be in the form of a large stainless steel or reinforced fiberglass column containing many hundreds of liters of resin, or a small disposable/redeemable cartridge which, when exhausted, can either be thrown away or sent back to the original supplier for regeneration. Demineralization:- Demineralization, also known as Deionization, is the process of removing dissolved minerals from water to make it suitable for industrial or municipal uses. Deionization units also remove all other positive metallic ions in the process and replace them with hydrogen ions instead of sodium ions. As the metallic ions in the water affix themselves to the exchange material, the latter releases its hydrogen ions on a chemically equivalent basis. A sodium ion (Na+) displaces one hydrogen ion (H+) from the exchanger; a calcium ion (Ca++) displaces two hydrogen ions; a ferric ion (Fe+++) displaces three hydrogen ions, etc. (Recall that home softeners also release two sodium ions for every calcium or magnesium ion they attract.) This exchange of the hydrogen ions for metallic ions on an equivalent basis is chemical necessity that permits the exchange material to maintain a balance of electrical charges. Now because of the relatively high concentration of hydrogen ions, the solution is very acid. At this point the Deionization process is just half complete. While the positive metallic ions have been removed, the water now contains positive hydrogen ions, and the anions originally in the raw water. The partially treated water now flows through a second unit; this time an anion exchange material normally consists of replaceable hydroxyl anions and fixed irreplaceable cations. Now the negative ions in solution (the anions) are absorbed into the anion exchange material. Released in their place are hydroxyl anions. All that emerges from such a two-unit system is ion-free water. It still contains the positive hydrogen ions released in the initial exchange plus the negative hydroxyl ions released in the second exchange. What has become of these two ions? Through the magic of chemistry they have combined (positive to negative) to produce water molecules, which are in no way different from the water in which they were produced. The result of this two-stage ion exchange process is water that is mineral-free. Deionized water has a wide range of uses in industry. Chemical production, pharmaceuticals, electroplating, television tube production, consumer products such as liquid detergents & leather goods processing are among the many diversified applications for Deionized water. The quality of water flowing out of a primary system, whatever its composition is determined by the ion leakage from the Cation exchanger. This ion leakage varies, depending upon the properties of the raw water and the rate of regeneration. The quality of the demineralized water obtained is not sufficient for certain uses such as that of feed water for very high-pressure boilers and various applications in the chemical, nuclear or electronics industries. Therefore, it has to be further treated in a system known as a polishing plant. Two-bed and Mixed-Bed Demineralization:- Resin-based demineralization systems are typically designed in two-bed or mixed-bed configurations. Two-bed deionizers have separate tanks of cation and anion resins. In mixed-bed deionizers, the anion and cation resins are blended into a single tank or vessel. Generally, mixed-bed systems will produce higher quality water with a lower total capacity than two-bed systems. They are often used as post treatment for a reverse osmosis (RO) or electro Deionization (EDI) system as a final polishing step. Many industrial high purity water systems that do not incorporate membrane treatment use a three-step process consisting of a cation exchange step, an anion exchange step, and a mixed bed step for polishing the water to high purity. Usually a mixed bed-polishing unit contains strong acid Cation (SAC) resin and strong base Anion (SBA) resins combined to a ratio of approximately 40% Cation resin to 60% Anion resin. (All resin volumes are dependant upon the incoming water analysis and the required quantity of treated water). Please note: The Cation resin must be a strong acid Cation type (SAC) and the Anion resin must be a strong base Anion resin (SBA). After a service cycle, each resin is regenerated as listed :- (SAC): Strong Acid Cation resin is washed with approx. 30% hydrochloric acid.(SBA): Strong Base Anion is washed with approx. 26% caustic. Advantages :- The water obtained is of very high purity and its quality remains constant throughout the cycle.The pH is almost neutral.Rinse water requirements are very low. Applications :- Battery top upLaboratory and research institutionsPharmaceuticalsChemicalsElectroplating and mirror silvering |
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| Application :- Pure Sip's Packaged Constant Pressure Booster Systems are designed to meet to ever-increasing demand of variable flow in high-rise, commercial, municipal and industrial buildings. The PLC based systems are available in Vertical and Horizontal configurations. Easy to select and install, pre-engineered duplex and triplex units are available for quick delivery. Each system is performance tested for trouble free operation and ease of installation and start-up. Operation :- A Pressure Boosting Set primarily consists of pumps, a control panel and accumulator (to meet small demands), all packaged with valves to provide water throughout the system. Controlled either by Pressure, Flow or Float Switch sensing, the pumps automatically run until the demand is fulfilled. Sophisticated controls ensure that operation of the pump is rotated to provide even usage so that in the unlikely event that a pump should fail the standby pump is immediately activated to provide unremitting supply. Additionally, the sets are protected against an interruption of the water supply so that the pumps are not run dry causing expensive damage. A range of alarm conditions provides the user with information regarding the status o both the booster sets and system. Key Features and Benefits :- Constant pressure can be set via the PLC Controller to ensure maximum comfort.Optimum Energy saving and Minimum Water Wastage.Different timings of operation can be set using the timer function.Auto-change over after set timings of individual pump.Digital indication of number of pumps running at a time, power consumed by pump, voltage taken pump, number of working hours of each pump.Highly efficient energy savings pumps.Low operating and maintenance cost. Benefits :- Power saving by reducing pumps running time.Eliminate Bulky Over Head Tank.Constant Water Pressure at all distribution points.Multi-pump operation maintains supply, even in the event of pump failure.Dry-running protection facility and built-in time relays for ensuring constant and steady operation. |
| Dimension10 inch to 60 inchCan be attached with water gusherIdial for FlatsSoftened water protects households appliances & sanitary fitting making them look new always.Gives your clothes, skin and hair a soft feel.Save your solar system, water heaters, washing machines from getting corrosion |
Hari (Pure Sip Private Limited)
10, 2nd Floor, Shrudha Apts,Opp. Navneet House, Gurukul Road,Memnagar,Ahmedabad - 380 059 Gujarat. - 380015, India
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