Maximization of Lagoon performance through optimization and maintenance

1. Maximization of Lagoon performance through optimization and maintenance by: Josh jabalera And Kristina hartley

2. Lift Station to Lagoon

3. Lift Station: • Check daily • Remove all garbage and debris • Check Floats and probes • Note and investigate abnormal inflows • Discussion – If its in the lift station its in the lagoon

4. Headworks • Approximately 40% BOD removal • Decreases rate of sludge accumulation • Prolongs life of pumps • Discussion

5. Community Outreach: To Flush or not to Flush – You Can Help! • Cigarette butts • Chewing gum • Kitty litter • Sanitary napkins, tampons • Bandages • Diapers • Pills/Prescription medications • Poisons or any other hazardous waste • DO NOT FLUSH • Baby wipes, disinfectant wipes, etc.. (even if they are “flushable”) • Facial tissues, Q-tips, cotton balls • Napkins, paper towels • Dental Floss • Egg shells, nutshells, coffee grounds • Fats, oils, greases • Hair • Condoms

6. Toxic Substances Can Have Adverse Effects • Can be harmful to microbiology within the lagoon • Can kill aquatic life • Harmful to downstream users • Discussion

7. Vegetation Control

8. Poor Vegetation Control Can Cause: • Oxygen Depletion • Excess Sludge Accumulation • Insect Problems • Damage to Dikes and Liners • Burrowing Animal Problems • Odors • Oxygen Depletion • Short-Circuiting • Poor Circulation

9. Chemical Vs Mechanical Discussion

12. Variables Affecting Pond Performance • Chemical Influences • Natural Influences • Physical Influences

13. Chemical Influences • Loading • Alkalinity • pH • Salinity • Toxicity • Composition of Liner and Dikes

14. Natural Influences • Solar Radiation • Temperature • Wind Speed • Precipitation • Evaporation • Ice Cover • Bacteria & Algae

15. Physical Influences • Pond Configuration • Pond Hydraulics • Retention Time • Seepage • Inflow & Infiltration • Pond Dimensions • Aeration & Mixing

16. “Eleven Things You Must Know to Effectively Solve Problems in Wastewater Lagoon Systems” -Steve Harris

17. Is your lagoon properly sized for the community, industry, or load it serves? • (Flow in MGD) x (Average BOD in mg/l) x (8.34 lbs/gallon) • Acres in Cell #1 • Typical facultative ponds can be loaded to 32 lbs BOD/acre/day • Primary cell should be removing between 60% to 80% of the influent BOD

18. 2. What are the pond dimensions and depths? • Important to help determine: • Detention time • Loading rate • Estimated time to desludge

19. 3. What is the theoretical retention time? What is the actual retention time? What is the flow? • Must know average daily flow and the volume of each pond • AVOID SHORT CIRCUITING!!!!

20. 4. How much sludge has accumulated at the bottom of the pond? • Algae blooms becoming worse • Sludge accumulates at about 1 inch/yr • At 18 inches pond performance deteriorates

21. 5. What are the dissolved oxygen (D.O.) levels measured at different times and water column depths and different places throughout each lagoon. For an aerated lagoon, how many pounds of Oxygen are being supplied per pound of BOD5 added?

22. 6. What is the pH at different depths and locations within the lagoon? What is the different times of the day, and between each lagoon? • Changes with depth • Where to sample • Affects pond’s ability to kill pathogens

23. 7. What are the BOD5 and CBOD5 of EACH pond? • Primary Cell should be removing 60 to 80% of your influent BOD • Run series of BOD5 diagnostics

24. 8. Have any new industries moved to the community? Have there been any changes to cleaning procedures or new disinfectant added or changes in cleaning chemicals? • Should be added to the lagoon system slowly over time

25. 9. Know how the lagoons temperature changes throughout the year and through the water column • Temperature trends will help predict blue green algae bloom, spring or fall turnover, and odors

26. 10. Know what types of solids are leaving the lagoon effluent • Each solid has meaning • Sludge particles may mean time to desludge • A daphnia bloom may be picked up as TSS • Consult with lab to identify solids

27. 11. Know the position and location of the influent, effluent, and transfer structures • Can adversely affect optimal water flow • Can cause short circuiting • Effluent structures can pass bottom solids into successive cells

28. Cold Weather Operations

29. Temperature Directly Affects the Rate of Biological Activity • Every 10 degree reduction in temperature will reduce microbial activity by 50%

30. Water Temperature Directly Affects: • Chemical and Biological reactions • The reaction rate constant used in pond design • Bacterial mortality rate • Thermal stratification • Destratification • Density driven circulation • Oxygen solubility in water • Algae, protozoa, and bacteria populations

31. Operations During Winter • Remove some aeration or reduce horsepower • Do not operate re-circulation • Maximize pond depth, liquid level • Maximize retention time • All cells should be operated to maximize retention time

32. How Temperature Affects Pond Mixing Cooler Fall Temperatures

33. Cold Winter Weather

36. Fecal Coliform Problems in the Winter • Low winter time ultraviolet radiation and pH mean lower potential pathogen die-off rates • As warmer influent water enters an ice covered lagoon, raw wastewater can ride high in the water column over colder denser water creating a short-circuit

38. Testing Procedures for Optimizing Lagoon Performance • Define Your System • Sample Collection, Analysis, and Management • Results Interpretation • Modifying Your System to Achieve Performance

39. Defining your System • Influent and Effluent • Head Works • Operated in Series or Parallel • Diagram • Consider Short Circuiting

40. 2. Sample Collection and Analysis • Time of Day • Depth of Sample • Areas of Disturbance • Grab Sample • Composite Sample

41. Intra-Pond Sample Analysis • pH • Dissolved Oxygen (DO) • Ammonia • Nitrate • Alkalinity • Temperature • (COD), (sCOD), (BOD5), (SBOD5) • Total Suspended Solids (TSS) • Sludge Blanket Profile

42. 3. Results Interpretation • Should settle large organic particles • Trend the data over a period of time • Look at the results between each cell • Pinpoint areas of failing treatment

43. 4. Modify Your System to Achieve Performance 5. Repeat Steps One through Four

44. Conditions that Reduce Performance • Flow through the system • Sludge accumulation • Available oxygen • Toxicity • Organic Load

45. Influences on Pond Hydraulics • Pond inlet position, size, and location • I & I and varied flow rates • Pond outlet position • Water temperature • Sludge accumulation • Position of aeration equipment and baffles • Wind

46. References: Wastewater Lagoon Troubleshooting By: H&S Environmental, L.L.C.

47. Thank You!!