The diluting water should be cold, because calcium hydroxide is more soluble in cold water than in warm water. Quicklime is used in water softening plants and at large water treatment plants because of its lower cost. Hydrated lime hydrated lime, also known as calcium hydroxide, is a white powder formed when quicklime is slaked in water. It does not deteriorate when stored, does not have to be slaked, and contains fewer impurities than most quicklime. The materials can be mixed directly in solution tanks and fed in dry form. Hydrated lime varies in quality between about 80 and 99 (typical 95). Because hydrated lime is easily handled, its use is preferable in the smaller water treatment purification plants where lime is required to supply additional alkalinity to the water.
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Alkalinity is the capacity of the water to neutralize acids, based on the waters content of carbonate, bicarbonate, hydroxide, borate, silicate, and phosphate. Water with a high alkalinity is preferred for coagulation since it tends to have more positively charged ions to interact with the negatively charged colloids. To provide artificial alkalinity to water so as to have effective coagulation quick lime writing or hydrated lime are added to water. Quick lime quicklime or calcium oxide (CaO) may be used to provide artificial alkalinity to water when necessary. Quicklime varies in quality from 75 to 99 calcium oxide (typically 85). The slaking of quick lime should be done carefully, as the success of the water treatment depends to great extend on this process. The slaking requires 15 30 minutes under optimum conditions. The slaked lime is diluted with water and stored in solution tanks. As the calcium hydroxide formed by the slaking process is only slightly soluble, the solution in reality a suspension of the chemical. It is therefore necessary to agitate the contents of the tank continuously to maintain a uniform the suspension.
Failure to operate within the optimum ph zone, may be a waste of coagulants and may be reflected in the lowered quality of the plant effluent. When ferrous sulphate is used as a coagulant, the pH should be maintained above.5 to ensure complete precipitation of the iron. This is done by the addition of hydrated lime. The treated father's water should be corrected with the addition of carbon dioxide. Salts are compounds which contain both a cation and an anion. In water, the cation and the anion come apart and can interact with other charged particles in the water. All natural waters contain some concentration of cations and anions, such as calcium, sodium, magnesium, iron, manganese, sulphate, chloride, phosphate, and others. Some of these ions may affect the efficiency of the coagulation process. Alkalinity of water The alkalinity of water is related to both the pH and the salts in the water.
Within the plant, mixing effects and coagulant effects will influence the coagulation/ flocculation process. The levels of pH, salts, and alkalinity in water are all ways of measuring the amounts of positively charged particles (cations) and negatively charged particles (anions) in the water. L result, all three factors influence the amount of coagulants which must be used to remove the turbidity in the water. The pH range of the water may be the single most important factor in proper coagulation. The optimum pH range varies depending on the coagulants used, but is usually between 5 and. These lower ph values mean that there are more positively charged particles loose in the water to react with the negatively charged colloids. Coagulation should be carried out within this optimum zone using alkalis and acids for correction of pH where necessary. For many waters, which are low in colors and well buffered and having pH in the optimum zone, no adjustment of pH is necessary when alum is used as coagulant.
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Nearly all coagulant aids are very expensive, so care must be taken to use the proper amount of these chemicals. In many cases, coagulant aids are not required during the normal operation of the water treatment plant, but are used during emergency water treatment of water which has not been adequately treated in the flocculation and sedimentation basin. Common coagulant aids are. Bentonite, calcium carbonate, sodium silicate, anionic polymer, non ionic polymer. Lime is a matthew coagulant aid used to increase the alkalinity of the water.
The increase in alkalinity results in an increase in ions (electrically charged particles) in the water, some of which are positively charged. These positively charged particles attract the colloidal particles in the water, forming floc. Bentonite is a type of clay used as a weighting agent in water high in color and low in turbidity and mineral content. The bentonite joins with the small floc, making the floc heavier and thus making it settle more quickly. Poly electrolytes, which are polymers containing ionisable purpose units have been used successfully as both as coagulant aids and coagulants but care should be taken to guard against their toxicity. Poly electrolyte create extraordinary slippery surfaces when spilled on floor and are difficult to clean. Factors influencing coagulation coagulation will be affected by changes in the waters pH, salt content, alkalinity, turbidity, and temperature.
The alkali required for corrosion prevention, therefore, would be added to the filtered water, the required dose being influenced but not governed by the alum dose. 1 mg alum will produce approximately.26 mg of insoluble Al(OH)3 precipitates and will consume approximately.51 mg of alkalinity (expressed as ca c03) 1 mg of ferrous sulphate will produce approximately.64 mg of insoluble fe(HC03)2 precipitates and will consume.56 mg of alkalinity. 1 mg of ferric sulphate will produce approximately.54 mg of insoluble fe(OH precipitates and will consume.75 mg of alkalinity. Because of the consumption of alkalinity, co2 is produced during coagulation. The ph value may also be lowered after the coagulation process, depending on the amount of coagulant applied and the total alkalinity in the raw water.
Coagulant Aids, coagulant aid is an inorganic material, when used along with main coagulant, improves or accelerates the process of coagulation and flocculation by producing quick forming, dense and rapid-settling flocs. Coagulant aids when added increase the density to slow-settling flocs and toughness to the flocs so that they will not break up during the mixing and settling processes. Primary coagulants are always used in the coagulation/ flocculation process. Coagulant aids, are generally used to reduce flocculation time and when the raw water turbidity is very low. The particles of coagulant aids may become negatively charged making them subject to attraction by positively charged aluminium ions. It is especially useful for clear water with very low turbidity that does not coagulate well with usual processes.
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The floc formed with ferric coagulants is heavier than alum floc. The ferric hydroxide floc does not redissolve at high ph values. Ferric coagulants may be used in color removal at the high ph values required for lined the removal of iron and manganese and in softening of water. Reaction between alum and natural constituents of various waters are influenced by many factors, so it is impossible to determine accurately the amount of alum that will react with a given amount of alkalinity. Theoretically 1 mg/L of alum reacts with.45 mg/L of natural alkalinity expressed as caco3.30 mg/L of 85 quicklime as cao, and.35 mg/L of 95 hydrated lime as Ca(OH)3 Alum is generally fed in solution form with 8 to 10 strength. If no alkali is added then the acidity.0 mg/L alum will lower the natural alkalinity of the raw water.45 mg/L. This lowering of natural alkalinity is desirable in most cases as the pH range for coagulation of turbid waters being.7.0.
For this reason, copperas is not used in coagulation of high coloured water, which coagulates best at ph values less than.0. The dose of lime required is approximately.27 mg/L to react with.0 mg/L of copperas. Generally the floc formed by the reaction of copperas and lime is feathery and fragile, but has a high specific gravity. Ferric sulphate, ferric sulphate is available as a commercial water treatment coagulant in the form of an anhydrous material that may be transported and stored in wooden barrels. The material will dissolve readily in a limited quantity of warm water so a special solution pot must be used with chemical feeders, in which 1 part ferric sulphate by volume is dissolved in 2 parts water to produce a solution of about 40 strength. Advantages of Ferrous sulphate. Ferric hydroxide is formed at low ph values, so that coagulation is possible junot with ferric sulphate at ph values as low.0. Ferric hydroxide is insoluble over a wide range of ph values than aluminium hydroxide except for the zone.0.5.
ferric sulphate, disadvantages of alum are. It is effective only at certain pH range, and good flocculation may not be possible with alum in some waters. Ferrous Sulphate or Copperas, ferrous sulphate, ordinarily known as copperas, is granular acid compound and green to brownish yellow color available in granules, crystals and lumps. This is fed usually in solution form with strength of 4. The alkalinity and ph value of natural water are too low to react with copperas to form the desired ferric hydroxide floc, because the reaction involves oxidation by the dissolved oxygen in the water, which does not occur when ph value is less than.5. It is necessary, therefore, to add lime with copperas to secure coagulation.
Ferric Chloride, the choice of the coagulant to be used for any particular water should preferably be based upon experiment on different coagulants. Alum, one of the earliest, and still the most extensively used coagulant, is aluminum sulfate (Al/S04)3 14 hp also known apple as alum. Alum is acidic with light tan to grey in color and available in blocks, lumps and powder with a density of kg/ m3 and specific gravity.25.36. Alum can be bought in liquid form or in dry form. It is readily soluble in water. When alum is added to water, it reacts with the water and results in positively charged ions. The ions can have charges as high as 4, but are typically bivalent (with a charge.) The bivalent ion.
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Posted by water Treatment in, sewage Treatment 44 responses, coagulant water treatment chemicals come in two main types primary water treatment coagulants and coagulant aids. Primary coagulants neutralize the about electrical charges of particles in the water which causes the particles to clump together. Chemically, coagulant water treatment chemicals are either metallic salts (such as alum) or polymers. Polymers are man-made organic compounds made up of a long chain of smaller molecules. Polymers can be either cationic (positively charged anionic (negatively charged or non ionic (neutrally charged.). The common water treatment coagulant chemicals used are. Aluminum Sulphate (alum ferrous Sulfate (copperas ferric Sulfate.