Australian research team works on biofuel potential from wastewater ponds
A team of environmental health experts at Adelaide-based Flinders University is carrying out research into a highly sustainable wastewater recycling programme by developing a cost-effective way to harvest microalgal biomass for use in biofuels and other applications.
The high-rate algal pond (HRAP) model, recycling wastewater at two low rainfall areas in regional South Australia, uses algae and bacteria to treat the wastewater.
The research, led by Flinders University Professor Howard Fallowfield and Dr Paul Young, builds a strong business case for algal extraction and has presented details of a new system using slaked lime and magnesium concentration to concentrate the microalgae-rich biosolids produced in the HRAP at Kingston-on-Murray in SA’s Riverland.
Chemical reaction modelling was used to optimise the processing and the cost of chemicals was evaluated.
“This autoflocculation process was successful in harvesting the biosolids while significantly reducing the turbidity, nutrients and E. coli contamination left in the wastewater,” lead author Dr Young was quoted as saying in an official statement.
These sustainable, low-energy systems are cost effective to run, and the capital cost of construction is about 40 per cent of the previous system for effluent-only schemes, and marginally higher for blackwater schemes, the Flinders University research has shown.
While a conventional system requires 66 days to treat the wastewater, HRAPs can perform a similar level of treatment in 5-10 days. Its ability to remove pathogens is equal to, or better than, existing wastewater systems, Professor Fallowfield said after an earlier Flinders University study compared the Loxton-Waikerie District Council trial site at Kingston-on-Murray with a conventional system.
The study for the first time shows the HRAP wastewater treatment system could also be used to efficiently harvest microalgae grown in a low-cost environment – without the need for further investment in expensive infrastructure. “The integration of treatment and biosolid recovery offers new configurations for the operation of HRAP-based wastewater treatment systems,” Fallowfield said.
