Biological contamination of water represents a major risk to plant, equipment, and human health. Waterborne microorganisms represent a problem in many situations where water purity and hygiene are essential and where process optimization is crucial as well. Water utilities, oil & gas facilities, chemical manufacturers, data centers, bottling plants and power stations, therefore, measure microbial load to help minimize corrosion, and optimize plant performance to alert you to possible bacterial outbreaks.
ATP in Industrial Applications
- Biofilm formation is a threat to the proper functioning of cooling water systems. Bacterial activity must be monitored, and controlled by the use of biocides.
- Where biofilms can form, proper monitoring and treatment can reduce clogged or fouled filters, corrosion, and lowered oxygen (leading to lowered pH) in the process stream.
- Reverse osmosis demineralization processes are also at risk of biofilm fouling, increasing operational and maintenance costs.
ATP in Municipal Applications
- Biofiltration monitoring
- Drinking water distribution
- Online microbiological monitoring is a useful and highly sensitive tool for demonstrating Log Removal Values of various unit processes used in direct and indirect potable reuse treatment.
- Recycled water/Water reuse
Continuous Monitoring of Microbial Activity with EZ Series Online Analyzers
Traditionally, microbiological load or contamination was measured manually in a lab setting. But now, with the Hach EZ7300 online ATP analyzer, microbiological activity can be measured continuously within the process stream, delivering data that allows operators to intervene as soon as a change in the activity is observed.
The EZ7300 determines total bacterial content by measuring ATP of any type of microorganism present in the water sample. And by quantifying intracellular, extracellular and total ATP in the sample, operators can now differentiate ATP in a living cell vs ATP released from a cell that has been subject to disinfection or lysis.
The EZ7300 series can also be used to measure the effectiveness of the biocides being used in the treatment process, to optimize the dosing regime, and help avoid damage to health, environment, and infrastructure.
Applications:
- Cooling Water
- Drinking Water
- Process Water