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1 FUNDAMENTAL OF ION EXCHANGE WATER SOFTENING 2 HARD WATER Water containing calcium (Ca+2) and magnesium (Mg+2), the hardness minerals. Water containing.

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Presentation on theme: "1 FUNDAMENTAL OF ION EXCHANGE WATER SOFTENING 2 HARD WATER Water containing calcium (Ca+2) and magnesium (Mg+2), the hardness minerals. Water containing."— Presentation transcript:

1

2 1 FUNDAMENTAL OF ION EXCHANGE WATER SOFTENING

3 2 HARD WATER Water containing calcium (Ca+2) and magnesium (Mg+2), the hardness minerals. Water containing calcium (Ca+2) and magnesium (Mg+2), the hardness minerals. HARDNESS can be: Calcium hardness Calcium hardness Magnesium hardness Magnesium hardness Total hardness Total hardness

4 3 MEASURMENT OF HARDNESS Milligrams per liter (mg/L) Milligrams per liter (mg/L) Parts per million (ppm) Parts per million (ppm) Grains per Gallon (gpg) Grains per Gallon (gpg) 1 mg/L = 1 ppm 1 gpg = 17.1 ppm = 17.1 mg/L

5 4 DEGREE OF HARDNESS Soft Less than 1.0 gpg Slightly Hard 1.0 to 3.5 gpg Moderately Hard 3.5 to 7.0 gpg Hard 7.0 to 10.5 gpg Very Hard 10.5 gpg and above

6 5 PROBLEMS CAUSED BY HARD WATER Decreases the efficiency of the detergents. Decreases the efficiency of the detergents. Scaling of pipes, water heaters and boilers. Scaling of pipes, water heaters and boilers.

7 6 BENEFITS OF USING SOFT WATER Soaps and detergents are used more efficiently. Materials and surfaces are cleaned better. Scales in boilers and water heaters are reduced. Precipitates are eliminated from the canned food products. Softened rinse water does not leave scale. Fabric washed in soft water lasts longer.

8 7 METHODS FOR HARDNESS REDUCTION Deionization Deionization Distillation Distillation Reverse Osmosis Reverse Osmosis Cation Exchange Cation Exchange

9 CATION AND ANION CHART

10 9 RESIN Plastic beads made of cross linked polystyrene with functional groups (sulphonates) that act as ion exchange sites. Plastic beads made of cross linked polystyrene with functional groups (sulphonates) that act as ion exchange sites. The sulphonate group has a negative charge allowing it to attract and hold (exchange) positive ions or cations such as H +, Ca +2, Mg +2, Fe +2, Na +. The sulphonate group has a negative charge allowing it to attract and hold (exchange) positive ions or cations such as H +, Ca +2, Mg +2, Fe +2, Na +.

11 RESIN

12 RESIN BEAD Cation resin bead attract and hold positively charged ions. Cation resin bead attract and hold positively charged ions. Those ions remain on the bead until the bead encounters other ions for which it has a greater affinity. Those ions remain on the bead until the bead encounters other ions for which it has a greater affinity.

13 Resin bead releases Na + and absorbs Ca +2 and Mg +2 ions for which it has a greater attraction. Resin bead releases Na + and absorbs Ca +2 and Mg +2 ions for which it has a greater attraction. Ions are not destroyed or changed chemically; Ions are not destroyed or changed chemically; they are simply replaced on the resin bead. This process is known as ion exchange. This process is known as ion exchange.

14 ION EXCHANGE Resin beads attract Ca +2 and Mg +2 ions and Resin beads attract Ca +2 and Mg +2 ions and release Na + Water has been softened because the Ca +2 and Mg +2 concentrations, which cause water hardness have been reduced. Water has been softened because the Ca +2 and Mg +2 concentrations, which cause water hardness have been reduced.

15 After a vast number of Ca +2 and Mg +2 ions have become attached to the resin beads, and most of the Na + ions have been released, the resin can no longer soften the water. After a vast number of Ca +2 and Mg +2 ions have become attached to the resin beads, and most of the Na + ions have been released, the resin can no longer soften the water. If no new chemical reaction is set, the incoming Ca +2 and Mg +2 ions flow untouched through the unit because there is no room for them on the resin beads. If no new chemical reaction is set, the incoming Ca +2 and Mg +2 ions flow untouched through the unit because there is no room for them on the resin beads.

16 The reaction can be reversed by greatly increasing the concentration of sodium in the solution. The reaction can be reversed by greatly increasing the concentration of sodium in the solution. Reverse process drive the Ca +2 and Mg +2 ions off the resin beads and replace them with Na + ions. Reverse process drive the Ca +2 and Mg +2 ions off the resin beads and replace them with Na + ions. This process is called REGENERATION. This process is called REGENERATION.

17 REGENERATION At appropriate time, the resin beads are washed with a strong solution, also known as a BRINE SOLUTION. Although the resin beads prefer Ca +2 and Mg +2 ions, the excessive concentration of Na + ions overcomes this affinity. The Ca +2 and Mg +2 are forced off of the resin beads and are discharged to waste. The resin beads are ready to remove more Ca +2 and Mg +2 from the water. The degree to which the resin is converted is dependent upon the concentration of sodium in the brine.

18 The softening reaction is given as: 2RNa + + Ca +2 RCa Na + 2RNa + + Mg +2 RMg Na + The reverse reaction is give as: 2RNa + + Ca +2 RCa Na + High Sodium Concentration Concentration 2RNa + + Mg +2 RMg Na + High Sodium Concentration Concentration NOTE: R represents the resin macro-molecule.

19 18 OPERATIONAL MODES In practice softeners can be In service In service Exhausted and waiting for regeneration Exhausted and waiting for regeneration In regeneration In regeneration In standby In standby Bypassed and out of service Bypassed and out of service

20 19 SOFTENING CYCLES Service Service Backwash Backwash Brining Brining Slow Rinse Slow Rinse Fast Rinse Fast Rinse

21 20 SERVICE During the service cycle, the raw water enters the top of the tank enters the top of the tank flows through the inlet flow distributors flows through the inlet flow distributors Passes through the resin bed Passes through the resin bed Exits the tank through the gravel support bed and under drain system Exits the tank through the gravel support bed and under drain system

22 SERVICE

23 22 SERVICE A successful service cycle requires that all of the treated water be low in hardness A successful service cycle requires that all of the treated water be low in hardness The resin capacity be fully utilized The resin capacity be fully utilized You must avoid completely expending the bed, allowing the softener to pass hard water. You must avoid completely expending the bed, allowing the softener to pass hard water.

24 23 SERVICE SERVICE FLOW RATE Continuous Flow Rate: 1 to 5 gpm/ft 3 Continuous Flow Rate: 1 to 5 gpm/ft 3 Peak Flow Rate: 10 gpm/ft 3 Peak Flow Rate: 10 gpm/ft 3 PRESSURE DROP THROUGH THE VESSEL 15 psi at Continuous Flow Rate 15 psi at Continuous Flow Rate 25 psi at Peak Flow Rate 25 psi at Peak Flow Rate

25 24 BACKWASH In Backwash, the raw water enters the bottom of the bed through the underdrain system exits through the top of the tank to waste

26 25 BACKWASH Backwash is upflow and the resin bed is fluidized. Backwash is upflow and the resin bed is fluidized. During backwash, the resin bed is expanded to remove solids trapped on the resin and to keep the bed from compacting During backwash, the resin bed is expanded to remove solids trapped on the resin and to keep the bed from compacting.

27 26 BACKWASH

28 27 BACKWASH The rate of flow must be controlled during the backwash to make certain the bed is expanded but not washing any of the resin out of the softener. The rate of flow must be controlled during the backwash to make certain the bed is expanded but not washing any of the resin out of the softener.

29 28 BACKWASH FLOW CONTROL Flow controllers provide accurate backwash flow rates Flow controllers provide accurate backwash flow rates These are installed in the waste line These are installed in the waste line Backwash flow controller is a plates with one or more orifices Backwash flow controller is a plates with one or more orifices The orifices are designed to give a constant flow rate over a broad range of pressure drop The orifices are designed to give a constant flow rate over a broad range of pressure drop

30 29 BRINING The resin limited exchange capacity must be restored periodically through process known as REGENERATION. The resin limited exchange capacity must be restored periodically through process known as REGENERATION. Regeneration can be controlled manually or automatically. Regeneration can be controlled manually or automatically. The frequency of regeneration depends on time (TIME REGENERATION) or quantity of produced water (DEMAND REGENERATION). The frequency of regeneration depends on time (TIME REGENERATION) or quantity of produced water (DEMAND REGENERATION).

31 30 BRINE MAKING A brine tank is plastic or fiberglass tank with a perforated salt platform. A brine tank is plastic or fiberglass tank with a perforated salt platform. Granular salt is added to a brine tank. Granular salt is added to a brine tank. A Brine valve keeps the tank filled with water to a preset level. A Brine valve keeps the tank filled with water to a preset level. The solid salt is in contact with the water above the platform and thus dissolves in the water. The solid salt is in contact with the water above the platform and thus dissolves in the water. Saturated brine is 26% salt by weight. Saturated brine is 26% salt by weight.

32 31 BRINE DILUTION Experience has shown that using a 10% brine solution minimizes salt usage. Experience has shown that using a 10% brine solution minimizes salt usage. To create a 10% brine solution the brine is mixed with fresh water through an eductor. To create a 10% brine solution the brine is mixed with fresh water through an eductor. The eductor must be matched to the softener size to create the right amount of diluted brine. The eductor must be matched to the softener size to create the right amount of diluted brine.

33 32 BRINE APPLICATION The regeneration reaction is much slower than normal softening. The regeneration reaction is much slower than normal softening. Suggested flow rate for the brine is 0.25 to 0.9 gpm/ft 3 Suggested flow rate for the brine is 0.25 to 0.9 gpm/ft 3 It requires a significant contact time between the resin and the brine. It requires a significant contact time between the resin and the brine. Suggested duration for the brining is 30 to 60 minutes applying 4 to 10 lb of salt per 1 ft 3 resin. Suggested duration for the brining is 30 to 60 minutes applying 4 to 10 lb of salt per 1 ft 3 resin.

34 33 SLOW RINSE To gradually push the brine out of the resin bed after regeneration. To gradually push the brine out of the resin bed after regeneration. Recommended flow rate is 0.25 to 0.9 gpm/ft 3. Recommended duration is 30 minutes. Recommended duration is 30 minutes.

35 34 SLOW RINSE Slow rinse is a continuation of the brine cycle after the the brine valve has closed, fresh water continues to flow through the eductor even though it is not allowed to draw brine.

36 35 FAST RINSE The purpose of the fast rinse is to completely rinse the brine from the softener so it can be returned back to service. The purpose of the fast rinse is to completely rinse the brine from the softener so it can be returned back to service. Recommended flow rate is 1.0 to 5.0 gpm/ft 3. Recommended flow rate is 1.0 to 5.0 gpm/ft 3. Recommended duration is 10 minutes. Recommended duration is 10 minutes.

37 36 FAST RINSE The fast rinse is a service to waste cycle. The fast rinse is a service to waste cycle. The inlet water flows through the service piping and thru the bed. The inlet water flows through the service piping and thru the bed. The water exits the vessel through the drain or waste. The water exits the vessel through the drain or waste.

38 37 TYPES OF WATER SOFTENERS Manual Manual Semi-Automatic Semi-Automatic Fully Automatic Fully Automatic Demand Initiated Regeneration Demand Initiated Regeneration

39 38 MANUAL The owner or the operator initiates some or all of the steps in the softener operation. The owner or the operator initiates some or all of the steps in the softener operation.

40 39 SEMI - AUTOMATIC The semi-automatic units require only the regeneration cycle to be initiated by the operator. The semi-automatic units require only the regeneration cycle to be initiated by the operator. All necessary steps of regeneration and return to service are handled by the softener controls. All necessary steps of regeneration and return to service are handled by the softener controls.

41 40 FULLY AUTOMATIC The fully automatic softener is usually equipped with a timer, which automatically initiates the regeneration cycle and every step in the regeneration process. The fully automatic softener is usually equipped with a timer, which automatically initiates the regeneration cycle and every step in the regeneration process. The regeneration is usually done during the periods of low water usage, such as hours between midnight and 4 a.m. The regeneration is usually done during the periods of low water usage, such as hours between midnight and 4 a.m.

42 41 DEMAND INITIATED REGENERATION All operations are initiated or performed automatically in response to the demand for treated water. All operations are initiated or performed automatically in response to the demand for treated water.

43 42 Ion exchange water softening is an effective method for reduction of hardness and other ions in a water supply. Ion exchange water softening is an effective method for reduction of hardness and other ions in a water supply. The cost is small in comparison to the benefits received. The cost is small in comparison to the benefits received.

44 43 BENEFITS Benefits of using water softener: Extends the life of water-using appliances, water heaters and pipes. Extends the life of water-using appliances, water heaters and pipes. Increases savings in detergents, soaps, shampoos, and other cleaning agents. Increases savings in detergents, soaps, shampoos, and other cleaning agents. Lowers fuel cost. $$$ Lowers fuel cost. $$$

45 44 Considered as a luxury item by some, an ion exchange water softeners are recognized as a necessity by the millions who use them.

46 45 WATER KING, INC. 102 Charbonnet Road Duson, LA Phone: (337) Fax: (337) Web site: Web site:

47 THE END


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