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Polymers and Alum. Manoj Chopra, Ph.D., P.E. University of Central Florida chopra@mail.ucf.edu 407-823-5037. Acknowledgements. Rick Renna (Florida Dept. of Transportation) Eric Livingston (Florida Dept. of Environmental Protection) Advisory Board (from FDOT, FDEP, WMDs, and UCF).
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Polymers and Alum Manoj Chopra, Ph.D., P.E. University of Central Florida chopra@mail.ucf.edu 407-823-5037
Acknowledgements Rick Renna (Florida Dept. of Transportation) Eric Livingston (Florida Dept. of Environmental Protection) Advisory Board (from FDOT, FDEP, WMDs, and UCF)
Overview • Water turbidity – may not be possible to remove using standard practice such as filtration • Direct filtration is largely ineffective in removing bacteria, virus and suspended soils particles • Polymers and Alum can be use to reduce turbidity and pollutants
Coagulation and Flocculation • Coagulation - removal of colloidal particles using a positive charge; is a process that causes the colloids to approach and adhere to each other to form larger particles or flocs. • Flocculation turns the smaller particles of turbidity, color and bacteria into larger flocs, either as precipitates or suspended particles. • These flocs can then be readily removed .
Examples • Examples of coagulants and flocculants are • Polyacrylamide (PAM and PAM blends) • Aluminum (Al3+) in the form of dry or liquid Alum • Ferric iron (Fe3+) in the form of sulfate salt or chloride salt • Must be Non-toxic and Insoluble in neutral pH range – must precipitate out and not leave high ion concentrations
Polymer and Alum Section in Manual • Appendix presents technologies for the use of polymers, polymer blends and alum in erosion and sedimentation control techniques in Florida. • Temporary and permanent control technologies are presented for each section. Includes: • Description • General purpose(s) or Uses • Considerations for implementation • When the technology should be implemented • Where and when it should not be used • Inspection and maintenance needs.
Polymers – PAM and PAM Blends • PAM is a water-soluble anionic polyacrylamide product used to minimize soil erosion caused by water and wind. • It can also be used to decrease loss by binding soil particles, especially clays, which will hold them on site. PAMs may also be used as a water treatment additive to remove suspended particles from runoff. • PAM can be used in several forms: • Powder • Powder added to water (wet, as a stock solution) • Emulsion • Gel Blocks or Bricks
Polymers – Purpose • To reduce soil erosion through soil binding. • As a water treatment additive to remove suspended particles from runoff. • To provide an appropriate medium for the growth of vegetation for further stabilization. • Increases infiltration through increasing particle size and pore spaces. • Performance Criteria < 29 NTU turbidity
Polymers – Where and How • PAM is suitable for use on disturbed soil areas that discharge to a sediment trap or sediment basin. • PAM may be used in conjunction with other BMPs to increase their performance. • It can be applied to the following areas – rough graded soils, final graded soils before application of stabilization, temporary haul roads prior to placing crushed rock surfacing, compacted soils road base, construction staging and materials storage areas, soil stockpiles and areas to be mulched. • PAM may be applied in dissolved form with water, or it may be applied in dry, granular, or powdered form. It may also be placed in the form of floc logs for passive dosing and for water quality improvement. • Higher concentrations of PAM do not provide any additional effectiveness.
Polymers – Installation • WHEN SHOULD IT BE INSTALLED? • While construction activities are occurring. • PAM must be reapplied when necessary or before an anticipated rain event. Reapplication is not required unless PAM treated soil is disturbed or turbidity levels show the need. Undisturbed soils treated with PAM may require reapplication after 2 months. • WHERE AND WHEN SHOULD IT NOT BE INSTALLED? • If there is a potential of equipment clogging. • When PAM alone does not meet the NTU reduction requirements and is used in conjunction with other BMPs • Areas where it comes in contact with limerock discharge as it will have limited effectiveness. Alternatives such as alum treatment may be needed. • Where it violates toxicity requirements. • PAM should not be applied to areas with asphalt.
Polymers – Inspection and Maintenance • WHAT NEEDS TO BE INSPECTED? • Visual observation of floc particles in the discharge • WHAT MAINTENANCE ACTIVITIES CAN BE EXPECTED? • Reapply PAM to disturbed or tilled areas that require continued erosion control • Rinse all PAM mixing and application equipment thoroughly with water to avoid formation of PAM residues • Downstream deposition from the use of PAM may require periodic sediment removal to maintain normal functions
Choice of PAMs • Polymer Clarifier - PAM and PAM blend, inclusive of any additives, • Only Polymer Clarifiers meeting all of the following criteria may be used: • The Polymer Clarifier must be anionic [negatively charged]. • No cationic formulations of a Polymer Clarifier will be accepted. Cationic Chitosan have high levels of toxicity to aquatic organisms. Emulsions shall never be applied directly to runoff or riparian waters due to surfactant toxicity. • The PAM or PAM blend must be certified for compliance with ANSI/NSF Standard 60, potable drinking water grade, indicating a maximum residual acrylamide monomer limit of 0.05%. • The manufacturer must provide a toxicological report for the Polymer Clarifier, performed by a third-party, approved laboratory.
Toxicology Testing • Tests • EPA/600/4-90/027F [acute testing]; • EPA/600/4-91/022 [seven day chronic testing]; • EPS 1/RM/13 [96 hr static bioassay] • The manufacturer must provide a test report indicating that the Polymer Clarifier, when tested with site-specific soils, demonstrates a lab performance level of at least 95% in reducing NTU or TSS levels. In Florida, there is a requirement that post treated value of NTU must be less than 29.
Polymer Selection and Toxicity Testing Photographs - Courtesy of Applied Polymer Systems, Inc.
PAM Dosage • The dosage rates are described with each of the applications • Are based on Florida soils. • Polymer dosage rates will vary with site-specific applications along with water and soil requirements. • Higher doses of certain polymer types or blends may result in extreme viscosity and may result in impaired applications when using spraying devices.
PAM Dosage Polymer Log dosage sampling device
Dewatering - Treated vs. Untreated The water was pumped out of the sediment pond The water was pumped through the pipe mixers and down a jute lined ditch.
Applications • Polymer Enhanced Soil Stabilization • Slope Stabilization – hydroseeding, TRM, soft armoring, earth berms, powder application • Channel Stabilization • Stream Crossings and Culvert Stabilization • Mud and Sediment Removal • Polymer Enhanced Runoff Treatment • Sediment Retention Barriers • Baffles and Baffle Grids
Applications • Polymer Enhanced Runoff Treatment contd.. • Drop Inlets with enhancements • Outlet Protection • Log Mixing Systems • Log Wire Baskets • Wattles or Checks • Check Dams • Polymer Enhanced Dust Suppression
Alum Treatment - Purpose • To remove suspended solids and pollutants by enmeshment and adsorption onto alum. • To collect flocs of suspended sediments in runoff and store within sediment basins or ponds.
Alum – Common Uses • Alum is injected into the flow stream containing turbid discharge to be treated. • The injection is controlled using a variable speed chemical pump to feed alum at multiple treatment points. • Alum is more effective in treatment of discharge that comes in contact with limerock. • The treatment process has to be carefully monitored.
Alum - Installation • WHEN SHOULD IT BE INSTALLED? • While construction activities are occurring. • After construction activities are completed. • WHERE AND WHEN SHOULD IT NOT BE INSTALLED? • Alum treatment requires close monitoring of dosage and overdosing may be harmful. • Where other compounds may violate toxicity requirements. • Alum may lower pH and elevate levels of Al+3
Alum – Inspection and Maintenance • WHAT NEEDS TO BE INSPECTED? • Inspect control units prior to forecast rain, daily during extended rain events, after rain events, weekly during the rainy season, and at two-week intervals during the non-rainy season. • Alum control operational units are equipped with automatic feeders for low rate. These feeders must have alarms to alert operators of failure events. Inspection is needed to remedy such failed systems. • WHAT MAINTENANCE ACTIVITIES CAN BE EXPECTED? • Deposition of sediments from the use of alum treatment may require periodic sediment removal from the sediment basin or ponds in order to maintain normal functions.
Alum – Summary Notes • There are four types of aluminum coagulants – Aluminum Sulfate (ALUM), Aluminum Chloride, Poly Aluminum Hydroxychloride and Alum/Polymer Blends (Floc Logs). • In a typical treatment system, alum is injected into the flow on a flow-proportioned basis so that the same dose of alum is added regardless of the flow rate using variable speed chemical metering pump. • Extensive laboratory testing must be performed to verify the feasibility of alum treatment and to establish process design parameters using representative runoff samples from the project watershed area. • Al+3 can be a potentially toxic species; floc formation should be complete prior to discharging the treated runoff into the receiving waterbody (Harper, 1990). 45-60 sec. after addition.
Thank you and Questions? chopra@mail.ucf.edu wanielis@mail.ucf.edu