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Upcoming webinar – Confidence over compliance: Raising the bar with total adenylate monitoring for advanced food safety
Wednesday, Nov. 5 | 2 p.m. ET Register now Are you ready to move beyond compliance and build true confidence in your food safety program? Join us for a free webinar to learn more about how A3 testing provides you a more complete view of sanitation effectiveness. In this session, we’ll unpack why measuring ATP+ADP+AMP […]
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The undeniable link between biological growth & pipeline degradation
Much has been said about the immediate benefits of 2nd Generation ATP monitoring to reveal regrowth hotspots in water distribution system.
ATP monitoring can yield even greater economic benefits
Much has been said about the immediate benefits of 2nd Generation ATP monitoring to reveal regrowth hotspots in water distribution system.
Having this data available in the field enables water technicians to instantly flag water samples that contain elevated microbiological content, trace the problem to its source, and then guide maintenance activates (e.g. flushing) in real-time to adequately solve the problem without being wasteful of time or water in the process. However, the long-term benefits of an optimized water quality monitoring program guided by ATP monitoring can yield even greater economic benefits.
Perhaps the most costly of all issues that drinking water utilities deal with is repairing line breaks. In the USA, drinking water utilities typically experience 23-27 line breaks per 100 miles of pipe per year, each of which carrying a direct cost of approximately $3000 for each event (Kirmeyer, Richards, and Smith, 1884). Based on these figures, the following examples put this cost in perspective:
Table 1: Sample of Cities of Various Sizes and Anticipated Line Break Frequency
*Assuming 25 line breaks/100 miles of pipe/year
| Location | Mile of Pipe | Projected # of Line Breaks | Anticipated Repair Costs* (USD) |
| Phoenix | 5,400 | 1350 | $4,050,000 |
| Dallas | 4,600 | 1150 | $3,450,000 |
| Kansas City | 1,912 | 478 | $1,434,000 |
| Macon | 1,400 | 350 | $1,050,000 |
Enhanced water quality control program using ATP monitoring
Based on the results shown in Table 1, the costs associated with line break repairs can put a tremendous burden on water utilities so it is certainly in the best interest of the city to minimize these costs.
Investigating the issue further, it has been reported that of the total number of line breaks, typically 50% are due to construction accidents that accidentally penetrate water lines. That leaves the other 50% being due to degradation of the pipes itself which is very strongly influenced by the effectiveness of the microbiological control that the utility maintains. The control of the following corrosion-causing issues can be directly addressed through an enhanced water quality control program using ATP monitoring:
- Microbially-Influenced Corrosion (MIC) – Elevated microbiological growth within water distribution lines inevitably result in biofilm formation. The adverse effects of biofilm are many (e.g. corrosion, premature loss of disinfectant residual, protection of biomass from disinfectant, etc.) and it is also very time-consuming to remove it through flushing. Repeated formation of tubercles and their subsequent removal through aggressive flushing also take their toll on the integrity of pipes.
- Chlorine/Disinfectant Dosage – As mentioned in the previous point, the tendency of biofilm to prematurely consume disinfectant residual usually results in treatment facilities boosting the dosage to ensure that a sufficiently high residual is maintained throughout the system. The corrosiveness of chlorine then becomes an even bigger issue with more of it needing to be added. Maintaining water quality through ATP monitoring can result in reduced biofilm presence which would otherwise consume disinfectant and further promote corrosion.
Needless to say, bolstering your microbiological control program using 2nd generation ATP monitoring enables water managers to get out in front of this problem by properly handling distribution system regrowth in a pro-active way rather than reactively. Assuming that corrosion can be reduced by as little as 10% through enhanced water quality control (a conservative estimate) would still translate to enormous savings that would eclipse the investment involved in adopting 2nd generation ATP monitoring and produce tremendous economic returns. This also says nothing of the much more immediate ROI that would be seen through flushing and field service optimization by saving tremendous amounts of water as well as time.
Reference:
Kirmeyer, G.J., W. Richards, and C.D. Smith. 1994. An Assessment of Water Distribution Systems and Associated Research Needs. Denver, Colo.: Awwa Research Foundation and American Water Works Association
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Luminultra strengthens position in European water diagnostics market with strategic acquisition of GL Biocontrol
The acquisition marks Luminultra’s eighth in eight years – each one a targeted step toward building a more comprehensive, client-focused solutions portfolio.
Bugcount , Labs ,
Drinking water , Legionella management ,
Relay™ by Luminultra
Relay™ is a value-add software tool that simplifies and guides your ATP testing, available at no cost to all customers.
Relay ,
Diagnosing inefficient biological phosphorus removal
By leveraging Luminultra’s mail-in GeneCount services, a wastewater treatment plant was able to identify the underlying causes of poor biological phosphorus removal in one of their two bioreactors.
Genecount ,
Wastewater treatment ,
Measuring living biomass in bioreactors with ATP monitoring
Bioreactors harness the ability of naturally-occurring microorganisms to break down environmental contaminants discharged from cities and industries.
Bugcount ,
Wastewater treatment ,
Understanding loss of nitrification at a refinery wastewater treatment plant using 16S rRNA sequencing
A refinery wastewater treatment plant was monitored over several years to investigate the loss of complete nitrification.
Labs ,
Wastewater treatment ,
Identifying contaminated groundwater wells with ATP testing
Bugcount , Labs ,
Drinking water ,
Why you should pay attention to biofilms
Understanding the complexity of biofilms and their impact on systems
Labs ,
Biomass inventory management using 2nd Generation ATP®
The activated sludge process is used to concentrate the biomass which naturally degrades carbonaceous substances found in most industrial and municipal waste waters.
Bugcount ,
Wastewater treatment ,
