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Cooling Tower Maintenance Legionella Awareness

Cooling Tower Maintenance Legionella Awareness. 4 th Installment. CTM/Ashland Presentations. Legionella Awareness – 2003 Filtration of Cooling Waters – 2005 Legionella Risk Management – 2006 Legionella Proactive Protocol – 2008 Legionella Refresher -- 2011 Literature References.

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Cooling Tower Maintenance Legionella Awareness

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  1. Cooling Tower Maintenance Legionella Awareness 4th Installment

  2. CTM/Ashland Presentations • Legionella Awareness – 2003 • Filtration of Cooling Waters – 2005 • Legionella Risk Management – 2006 • Legionella Proactive Protocol – 2008 • Legionella Refresher -- 2011 • Literature References

  3. Legionella Proactive Protocol2008 • Introduction/Refresher • Systems that may Harbor Legionella and What to Do • Risk Category • Legionella Testing Requirements • Frequency of Cleaning/Disinfection • Action Levels and Associated Response and Cleaning Steps • Cooling Tower Design Best Practice • Maintenance Considerations

  4. Legionella Refresher2011 • Legionella Sources • Legionella Control • Planning and Record Keeping

  5. Legionella Sources

  6. Source of Legionella • Pervasive organism • Soil derived • Conditions for growth • 68 - 122 F (20 - 50 C) • pH 6-8 • Stagnant waters • A nutrient source • Biofilms, organics • Sediments, deposits Legionella Bacteria

  7. Factors Determining the Risk of Contracting the Disease • A source of Legionella • Favorable growth conditions • Aqueous aerosols less than or equal to 5 microns • Sufficient organisms to causeinfection • Susceptible individual

  8. Systems Promoting Growth • Cooling towers • Evaporative condensers • Hot and cold water systems • Taps and showerheads • Humidifiers and air washers • Spa and whirlpool baths • Decorative fountains

  9. Field Study on Biofilm Growth

  10. Cyclic Operation and Biofilms • AOC supports bofilm growth • Flow and AOC supply stopped results in biofilm starvation and detachment - 90% in 24 hours - 80% in 12 hours - 60% in 10 hours - 40% in 8 hours • Continuous flow without AOC achieves 90% biofilm detachment in 3 days

  11. Effects of Cooling System Dynamics – cfu/ml Same Day Comparative Samples(Example System Treated with Continuous Oxidant and Slug Feed of Glutaraldehyde Once Per Week)

  12. Legionella Control

  13. Microbiological Control Capability • Efficacious biocides selection • Biodispersant supplement for biofilm • Effective application for required concentration and contact time • System dynamics (ART, T½) and volume • Dedicated automated feed of microbiocides • Feedback control Loop (ORP, self verifying feed pumps) • Pre-conditioning/sterilization • Preseason start-up • Idle restarts • Sterilization/hyper chlorination at the summer peak • End of season shutdown

  14. Microbiological Control Additives of Choice • Oxidation • Bleach (CSW 20) • Sodium Bromide/Bleach (Drewbrom) • BCDMH (Biosperse 261T) • Chlorine Dioxide • Non Oxidants • Glutaraldehyde 1º (Biosperse 254/255) • Isothiazolin 2º (Biosperse 250) • Biodispersants • Nonionic Surfactants (Drewsperse 739) • Protein cross linking/cationic surfactant blend (Performax 405) • Anionic surfactants(Drewsperse 7211)

  15. Legionella Control with Non-Oxidizing Biocides

  16. Continuous Oxidant Feed Protocol • Continuous feed for chlorine, bromine, BCDMH or stabilized bromine • Dosage: • Recommended 0.2 - 0.4 FAH and/or equivalent mV ORP with a minimum requirement of a measurable residual FAH • For higher risk systems increase FAH residual as needed to control CFU level and biofilm • Feed a supplemental organic biocide* • Recommend biocide be glutaraldehyde or an alternate biocide fed with biodispersant • Feed once per week or as needed to control biofilm *Alternative choices of non-oxidizing biocide should be based on Relative Population Density (RPD) lab results

  17. Intermittent Oxidant Feed Protocol • Intermittent Oxidant Feed • Chlorine, bromine, BCDMH or stabilized bromine • Minimum dosage: Hold 0.5 - 1.0 FAH and/or equivalent mV ORP for a minimum of 2 hours each day • Feed alternating supplemental organic biocides* • Recommend one biocide be glutaraldehyde or an alternate biocide fed with biodispersant • Feed an additional compatible organic biocide* • Alternate feed once per week *Alternative choices of non-oxidizing biocide should be based on RPD results

  18. Oxidant Feedrate

  19. Legionella Testing Requirements

  20. Action Levels • Immediate response to positive test results • On-line treatment requires a minimum of 14 days to produce results • Unrealistic a system could be totally Legionella free

  21. Direct Testing of Legionella • Frequency Consideration • Prior to peak summer sterilization (i.e. beginning/mid August) for seasonally operated HVAC or after a sterilization. • After cleaning of a confirmed cooling tower sourced outbreak • If a confirmed outbreak has occurred in the area (≤3 km minimum) • Three times per year of 24/7 Industrial process cooling systems of higher risk noted earlier

  22. Suggested Legionella Remedial Action Criteria

  23. Frequency of Cleaning/Disinfection

  24. Frequency of Cleaning/Disinfection • Immediately prior to new system being commissioned • If the system has been out of use for one month or longer • If the system has been modified, entered or disturbed in such a way to lead to contamination • If the cleanliness of the system is in any doubt • If microbiological monitoring indicates there is a problem • At least twice a year

  25. Frequency of Cleaning/Disinfection • Preconditioning/Disinfection • End of Operating Season • 2 per Year Minimum for 24/7 Systems (4) • Disinfection Only • At Peak Seasonal Demand • Occurrence of Outbreaks in the Area • Upon System Restarts of ≤ 4 weeks Idleness (≥ 3 Days?)’ • Idle System of 1 Month or More to be Drained

  26. Sterilization Only • Frequency • During restart of idle/stagnant towers, condensers, heat exchangers • Seasonal restart of HVAC system, which was preconditioned and sterilized the end of the previous season • Peak of summer cooling demand (i.e. beginning of August). • Known outbreaks in the area • Biological dip slide counts exceed 105 – 106 CFU/ml. Visible slime (i.e. biofilm) present.

  27. Planning and Record Keeping

  28. Total System Approach:Five Areas of Activity and Performance Comprehensivesystem assessment  Intensive microbiological treatment program  Sterilization and cleaning  Monitoring and control • Documentation • All Information is Available in Previous Presentations 03, 06, 08

  29.  System Assessment • System survey • In-depth survey of system mechanical layout and operating conditions • Utilizes established protocol, ex BSRIA-Building Services Research Institute Assoc. (UK) • Identify, evaluate and rank specific factors associated with potential for microbiological growth and Legionella • Mechanical and chemical • Determine risk minimization action plans

  30. Documentation • Why Document? • When a pneumonia outbreak occurs in a facility it allows for: • Speed in identifying the source for eradication purposes, removing a potential and continual threat. After all it may not be cooling system derived. • Clinical micro biologists and physicians to select appropriate antibiotics, dosages and monitor the progress without the presence of further stressors.

  31. Documentation • To name a few: • Simplified line drawing of the cooling system and all equipment, dead legs cross over lines, chemical feed points/lines/control, system volume, recirculation make-up and blowdown rates • Key water test results/date • Chlorides or conductivity for cycles of concentration assessment • Make-up, blowdown water meter readings • FAH and/or ORP for Halogen concentration • Biological Tests – CFU/ml; CFU/cm2 • Start, end and expiry dates of dip slide lots for bio testing

  32. Documentation • To name a few: • Chemical pump and timer settings • Biocide usage • Start-up/shutdown and other application logs of preconditioning/sterilization and sterilization only • Inspection/observations for slimes, muds, algae in cooling tower and on coupons and what was done to improve • Contingency plans procedures, and results/check offs when performed.

  33. Influence Risk Associated With Legionella

  34. Survey of Process Risk

  35. Inspection for visible slime or sludge's Decks Mist eliminators Fill Sumps Corrosion or biofilm coupons Monitoring and Inspection

  36. Biofilms • Biofilms Don’t Just Harbour Legionella, They: • Restrict Air Flow • Restrict Water Flow • Reduce Heat Transfer • Reduce Heat Rejection • Induce Localized Corrosion • Biological Control • Higher Life Forms – None • Bacteria CFU/ml <104, > 105 Do something • Bacteria CFU/cm2 <105, >106 Do something

  37. Preventive Action • Use your Biocides in a Prudent Manner And Remember • Sterility Does Not Exist Except in Higher Life Forms

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