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Hydrodynamics Research Discovers How to Make SAF Systems More Efficient

A radical way to improve the performance of submerged aerated filter (SAF) package wastewater systems has been unveiled at a leading industry event

Engineering manager Tim Holloway, of WPL discovered how to make SAF systems more efficient when researching hydrodynamics.

He presented his research to delegates at the European Waste Water Management Conference at Manchester Town Hall on 13 October 2015.

Holloway said: “Submerged aerated filter – or SAF systems have been around for a long time.  But until now we knew very little about the hydrodynamics going on inside.

“My findings suggest the removal of organic contaminants can be improved by as much as 20 per cent by adjusting the ratio of media to wastewater inside the tank.”

In order to measure the hydrodynamics of SAF systems Holloway used fluorescent dye to measure how pressure, flow and the ratio of media to wastewater affected the way contaminants were removed.

He said: “No one has looked at the process in this amount of detail before. It is really quite unique for someone to look at the internal hydrodynamics of SAFs.
“Utility companies commonly have their own prescriptive rates that govern the way media is loaded. However this research shows the accepted way of loading media within the system may not be the most efficient.”

By creating a modular wastewater treatment section with different concentrations of media the research could help utility companies design systems which are more efficient.

Hampshire-based WPL specialises in the manufacture of packaged wastewater plants, which can be engineered to match the precise needs of the clients. The company has already created a successful pilot SAF plant based on the research, which Holloway conducted as part of his MSc in Wastewater Treatment.

Using Holloway’s research the company will now be able to create custom-designed modular treatment plants, to closely match site and discharge requirements, reduce over design and unnecessary power consumption.

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