0:00:01.410,0:00:03.930 - [Narrator] Coagulation is[br]the addition of chemicals 0:00:03.930,0:00:06.810 to destabilize the electrostatic forces 0:00:06.810,0:00:09.360 of nonsettleable solids. 0:00:09.360,0:00:12.660 Coagulant chemicals typically[br]have a positive charge, 0:00:12.660,0:00:16.050 which binds to the negatively[br]charged particles in water, 0:00:16.050,0:00:17.340 neutralizing them, 0:00:17.340,0:00:18.930 and allowing them to come together 0:00:18.930,0:00:22.593 to form small clumps of[br]particles called microfloc. 0:00:23.820,0:00:26.520 In most cases, the[br]chemical reaction occurs 0:00:26.520,0:00:28.200 in a fraction of a second, 0:00:28.200,0:00:30.090 so it's important the coagulant 0:00:30.090,0:00:32.310 is dispersed quickly and evenly 0:00:32.310,0:00:35.910 to encourage as many particle[br]collisions as possible. 0:00:35.910,0:00:39.060 Because this process relies[br]on chemical reactions, 0:00:39.060,0:00:41.313 several considerations must be made. 0:00:42.390,0:00:44.280 Water temperature, for example. 0:00:44.280,0:00:46.680 Colder water usually slows coagulation 0:00:46.680,0:00:48.420 and flocculation reactions, 0:00:48.420,0:00:50.040 which may require more time 0:00:50.040,0:00:52.293 to achieve optimal floc formation. 0:00:53.430,0:00:56.340 Extreme values of pH, high or low, 0:00:56.340,0:00:59.010 will also interfere with the process. 0:00:59.010,0:01:02.433 Coagulant effectiveness[br]is highly dependent on pH. 0:01:03.600,0:01:06.780 For some coagulants,[br]alkalinity is a factor. 0:01:06.780,0:01:09.060 Operators may need to raise alkalinity 0:01:09.060,0:01:11.160 for coagulation to be effective 0:01:11.160,0:01:13.710 when using iron or aluminum coagulants 0:01:13.710,0:01:16.980 that can consume[br]alkalinity and depressed pH 0:01:16.980,0:01:19.533 when they are added to[br]low-alkalinity waters. 0:01:20.700,0:01:23.160 Turbidity is also important. 0:01:23.160,0:01:24.660 The lower the turbidity, 0:01:24.660,0:01:27.333 the more difficult it[br]is to form proper floc. 0:01:28.230,0:01:32.220 The most common coagulant[br]chemical used is aluminum sulfate, 0:01:32.220,0:01:33.813 commonly called alum. 0:01:34.770,0:01:37.950 When added to water, alum[br]forms jelly-like particles 0:01:37.950,0:01:39.543 of aluminum hydroxide. 0:01:40.590,0:01:43.260 The trivalent aluminum ions neutralize 0:01:43.260,0:01:46.260 and attach to negatively[br]charged particles in water, 0:01:46.260,0:01:47.613 forming microfloc. 0:01:48.480,0:01:52.790 Alum works best in a[br]pH range of 5.5 to 7.5. 0:01:54.359,0:01:56.910 Polyaluminum chloride and iron salts, 0:01:56.910,0:01:59.670 such as ferric chloride[br]and ferric sulfate, 0:01:59.670,0:02:01.050 are also used. 0:02:01.050,0:02:03.573 They operate over a wider pH range. 0:02:04.440,0:02:09.120 Coagulant and flocculant aids[br]are added to improved binding, 0:02:09.120,0:02:11.460 build stronger, more settleable floc, 0:02:11.460,0:02:15.390 and effect flocculation by[br]increasing floc size, strength, 0:02:15.390,0:02:17.430 and/or floc density. 0:02:17.430,0:02:19.590 In addition, they help overcome the effect 0:02:19.590,0:02:20.910 of low temperatures, 0:02:20.910,0:02:23.190 reduce the amount of coagulant needed, 0:02:23.190,0:02:25.683 and reduce the amount of sludge produced. 0:02:26.550,0:02:30.570 Commonly used coagulant aids[br]include cationic polymers. 0:02:30.570,0:02:33.810 Polymers are defined[br]as a synthetic compound 0:02:33.810,0:02:35.370 with high molecular weight 0:02:35.370,0:02:39.153 and composed of repeating[br]chemical units or monomers. 0:02:40.200,0:02:42.990 Polymers may be polyelectrolytes, 0:02:42.990,0:02:45.570 such as the water-soluble flocculants, 0:02:45.570,0:02:48.810 water-insoluble ion-exchange resins, 0:02:48.810,0:02:51.603 or insoluble uncharged materials. 0:02:52.440,0:02:55.080 Polymers are long chains of molecules 0:02:55.080,0:02:57.480 that produce highly charged ions 0:02:57.480,0:02:59.670 and help bind microfloc together 0:02:59.670,0:03:01.950 into larger floc particles. 0:03:01.950,0:03:04.200 They are very popular with operators 0:03:04.200,0:03:06.030 because they are very effective 0:03:06.030,0:03:09.600 and can be positive, negative,[br]or neutrally charged, 0:03:09.600,0:03:11.730 providing a great deal of flexibility 0:03:11.730,0:03:13.293 in different circumstances.