A treatment developed at Õ¬Äе¼º½ to control sewer odour and corrosion is set for the international market.
Researchers from Õ¬Äе¼º½’s developed the technology, which uses free nitrous acid to remove biofilms that adhere to the inner surfaces of sewer mains.
Õ¬Äе¼º½ commercialisation company has negotiated an exclusive licence agreement with , an Atlanta-based provider of chemical treatment programs for water and wastewater applications.
Lead researcher and Director said the technology was developed with municipal wastewater collection systems in mind.
“Corrosion and odour problems in sewers are most often caused by sulphate-reducing bacteria in sewer biofilms that produce hydrogen sulphide,” Professor Yuan said.
“Hydrogen sulphide is released into the atmosphere above the wastewater, causing odour problems, and is converted by sulphide-oxidising bacteria into sulphuric acid, which is corrosive to concrete sewer pipes.
“Sewer networks can include many kilometres of sewer pipe and various topographical elements, such as rising mains.
“These can create ‘hot spots’ where sulphate becomes sulphide, accelerating corrosion and causing odours, leading to community complaints.
“Most existing treatments for managing sulphide-related problems in sewers involve sewer pipe lining, sewer air ventilation with follow-on air treatment and round-the-clock chemical dosing, resulting in high operating costs.”
USP general manager Tom Walkosak said the “innovative and cost-effective” Õ¬Äе¼º½ technology can help solve an ongoing multi-billion-dollar problem for water utilities.
“This technology is different from existing treatments because it is delivered intermittently, provides longer duration control and effectively stops the production of hydrogen sulphide at its source,” Mr Walkosak said.
“It is highly effective, can be used in sensitive environmental areas or to treat smaller lines, and offers water utilities the opportunity to make significant reductions to their maintenance costs.
“According to the , the total annual cost of hydrogen sulphide corrosion in the US sewer network in 2000 was $US13.75 billion.”
UniQuest chief executive Dr Dean Moss said the first Australian field trial of the Õ¬Äе¼º½ technology was undertaken by Õ¬Äе¼º½ in 2012 in collaboration with USP and the in 2012, followed by a second field trial in partnership with USP and at Scarborough on Moreton Bay in 2014.
“These trials led to further refinement of the technology and ongoing field tests in the US,” he said.
“It’s always exciting to see tangible results from industry engagement, but this is a fantastic example of universities and companies working together to produce a solution to a costly problem and then to refine that solution.”
USP expects to market for the Õ¬Äе¼º½-developed technology in North America, Australia, China and Europe.
UniQuest Communications: Nicole Cowan, n.cowan@uniquest.com.au, +61 7 (0)409 767 199.
