Desalination plant at Billy Lights Point

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The Eyre Peninsula urgently needs a desalination plant.

A desalination plant at Billy Lights Point is the quickest solution to ensuring water security for the Eyre Peninsula. Marine science research undertaken to date indicates that with the right engineering design, a desalination plant at Billy Lights Point can be built with minimal impact on the marine and coastal environments.


The Eyre Peninsula urgently needs a desalination plant.

A desalination plant at Billy Lights Point is the quickest solution to ensuring water security for the Eyre Peninsula. Marine science research undertaken to date indicates that with the right engineering design, a desalination plant at Billy Lights Point can be built with minimal impact on the marine and coastal environments.


  • March 2024 geotechnical investigations

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    From early March through to May 2024, geotechnical activities will be undertaken using a barge and small drill rig to collect soil and rock samples from the ocean floor.

    This will help us better understand the site’s geology to determine a potential construction method for the marine infrastructure which will connect to the proposed desalination project.

    The geotechnical investigations will involve:

    • Establishing a small jack-up barge in the east of Billy Lights Point.

    • Drilling small diameter holes around 20-30 metres deep to extract samples for scientific analysis.

    • Backfilling boreholes on completion of work.

    Read the project update to find out more about these geotechnical investigations.

  • March 2024 Economic Opportunities Forum

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    Thanks to everyone who came along to our forum in Port Lincoln this week, to learn about the range of employment and training opportunities available through our proposed Eyre Peninsula desalination project.

    Close to 100 business owners and job seekers attended, where they heard from several speakers including our project director and contract partner ACCIONA.

    With up to 230 jobs per year of construction to be created, along with new supply chain opportunities, it was fantastic to speak with local people about how they can work with us on this important water security project.

    If you couldn’t make it to the forum but would still like to receive updates on related job opportunities, register your interest via the Industry Capability Network (ICN gateway) webpage.

  • February 2024 design changes informed by key stakeholders

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    We are continuing to mature the design for our proposed desalination plant at Billy Lights Point, with key changes made in response to feedback gathered through early engagement and further scientific analysis, reinforcing our commitment to minimising any impacts to the coastal and marine environment.

    These changes include using a trenchless construction method for the installation of the plant’s intake and outfall pipes, and the placement of these pipes in a deeper area off the coast of Billy Lights Point within a higher flushing zone.

    We have listened to and responded to feedback from the Project Reference Group and other key community groups, our regulators and various other government agencies, which highlighted the importance of minimising disturbance to the Billy Lights Point coastline and avoiding the shallow waters of Proper Bay.

    We will need to conduct additional geotechnical studies to refine the scope of the trenchless construction method, and from March 2024, we will use a barge and small drill rig off the coast of our existing nearby wastewater treatment plant to collect soil and rock samples from the ocean floor.

    This will enable a better understanding the site’s geology, to determine the exact type of construction method, which could include directional drilling or tunnelling.

    The geotechnical work is expected to take several weeks to complete, and the results will help inform a detailed concept design which will be incorporated into our Development Application for the project.

    To support this work, we will also be undertaking further hydrodynamic modelling within the preferred marine zone and a re-run of the particle tracking model, which will add to existing knowledge of mussel spat movement and narrow down the exact alignment and location of the intake and outfall pipes.

    We are planning to place the pipes in a zone to the east of Billy Lights Point, up to 1.5 kilometres offshore and more than 2.5 kilometres from existing mussel leases. This location is near a commercial shipping corridor which extends from the marina to Cape Donnington and is within water around 10 to 15 metres deep.

    The outfall for our Port Lincoln Wastewater Treatment Plant sits outside of this zone further to the south, and our extensive monitoring to date has demonstrated no negative impact to the local marine environment from this marine infrastructure.

  • November 2023 contractor announced

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    Acciona has been awarded the contract for the Early Contractor Involvement (ECI) phase of the Eyre Peninsula desalination project. Acciona will be undertaking further investigations at the proposed desalination plant location of Billy Lights Point over the coming months to support SA Water in developing the detailed design of land and marine infrastructure as part of the project.

  • September 2023 procurement update

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    An Expression of Interest for early contractor involvement (ECI) in the design and constructability of the desalination plant and marine systems was released to market earlier this year. Shortlisted tenderers have submitted detailed responses as part of a Request for Tender which was released in June. The Project Team is currently reviewing and assessing the tender submissions, with the contract to be awarded in the coming months.

    The ECI contractor will support SA Water to further develop the concept design of the plant and marine infrastructure. Subject to final approvals, the successful contractor will be required to prioritise local workforce engagement, with significant opportunities for local industry to be involved in the construction phase of the project.

    Further updates will be provided when the ECI contractor is appointed and as procurement for the project progresses.

  • August 2023 project update

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    As we proceed with work to deliver a desalination plant at Billy Lights Point, ensuring long-term water security for the Eyre Peninsula, we will provide regular project updates through the detailed design, development application preparation, approvals, and construction processes.

    Read the project update.

  • Frequently asked questions

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    In our conversations with the community, we are frequently asked questions such as:


    Find the answers to these questions and more on our frequently asked questions page.

  • Project information

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    Billy Lights Point is our preferred location

    Our proposed site at Billy Lights Point is:

    • close to existing water and electricity networks, requiring a short, 4 km powerline route and a 7.4 km transfer main to North Side Hill storage tanks
    • formerly industrial and not located near residential properties, which will help to minimise visual and environmental impact on the landscape
    • relatively sheltered with a mostly flat landscape, helping to reduce construction risks and challenges, delivering the best value option for our customers.


    A number of alternative locations have been assessed and investigated for the Eyre Peninsula desalination plant, however, these presented challenges including:

    • nationally and state protected flora and fauna
    • internationally and nationally protected species such as migratory whales
    • location within or adjacent to a State Marine Park
    • unique geology
    • high cliffs and exposed coastline requiring significant engineering design and complex construction processes, resulting in an additional $150 million cost impost on customers.


    Billy Lights Point is our preferred location because it offers the quickest solution to ensuring long-term water security for the region, with the least impact on future water costs for customers. Marine science research undertaken to date indicates that with the right engineering design, a desalination plant at Billy Lights Point can be built with minimal impact on the marine and coastal environments.

    Concept render for Eyre Peninsula desalination plant. Final design to be confirmed.


    First water expected 2025

    By the end of 2025, a desalination plant at Billy Lights Point would produce 0.016 gigalitres or 16 megalitres of fresh, clean drinking water per day – with the capacity to be expanded to around 0.024 gigalitres or 24 megalitres per day.

    Further scientific investigations and assessments will inform the detailed design of the plant, including the location of the intake (where the plant draws in seawater) and outfall (where the plant disperses saline concentrate from the desalination process) pipes.

    The data from these investigations and assessments, along with community input, will inform our development application for the project, which will be lodged with the State Planning Commission. Our application will be assessed by multiple agencies and regulators through a comprehensive approval process, which also provides for further community consultation.



    How desalination works

    1. Pre-treatment - seawater is pumped through intake screens and filters to remove particles, before passing through an ultrafiltration membrane.
    2. Reverse osmosis - semi-permeable membranes allow water molecules to pass through but block larger salt molecules, resulting in the removal of impurities and salt in the water.
    3. Post-treatment - the desalinated water is disinfected and re-mineralised to increase alkalinity to reduce the potential for corrosion in the network and customers’ plumbing. Treated water meets the Australian Drinking Water Guidelines, ensuring it is safe to drink.
    4. Storage - the clean drinking water is then stored and supplied to homes and businesses.
    5. Outfall - the remaining concentrated seawater is returned to the ocean through the outfall pipe and diffusers to ensure it reaches the natural salinity levels of the environment.


    After desalination, clean, fresh water from the desalination plant would be pumped to the North Side Hill storage tanks near Port Lincoln. The water would then be distributed through our network to ensure it reaches regional and remote communities across the Eyre Peninsula, for use in homes, schools, hospitals, businesses, and agriculture.


  • Water security

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    Eyre Peninsula’s water security challenges

    In 2007, we began working with the Eyre Peninsula community as we prepared a long-term water plan for the region. The plan identified seawater desalination as the preferred future water supply option to supplement existing groundwater sources and ensure water security for 35,000 local customers.

    Uley South Basin is the last remaining major productive groundwater source on Eyre Peninsula, currently supplying approximately 75 per cent of the region’s drinking water. The basin refills when rain seeps through the soil and ground into the underground aquifer – a process known as groundwater recharge. Extensive monitoring of water levels in different parts of the basin has shown a long-term trend of reduced recharge.

    Continued extraction from the Uley South borefield at current levels, in combination with the long-term trend of reduced recharge, is predicted to cause water levels in parts of the basin to reach historically low levels by the mid-2020s. Sustained over-extraction risks the freshwater in the basin becoming more saline, as well as seawater intrusion – which would permanently decrease the size of the freshwater aquifer.

    Data for 2021-22 indicates that despite being an above average period for rainfall, Uley South Basin experienced only average recharge with water levels remaining stable. To ensure the basin remains a viable resource for the long term, it is essential that a climate-independent desalination plant is delivered.

    The timeframe for delivery is critical, with a very real risk of irreversible damage to the Uley South Basin if current extraction rates continue beyond 2025-26. Without a desalination plant, we are unlikely to be able to supply water to Eyre Peninsula at current demand, and significant delays would likely lead to water restrictions.

  • Marine science and the environment

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    The research

    The proposed desalination plant requires a licence to operate from the Environment Protection Authority (EPA), which will only be granted if the plant can meet strict conditions assessed against ongoing monitoring of the local marine environment, including through construction and operation stages. Any discharge (including of chemicals associated with the desalination process) from the plant also needs to meet EPA requirements, and approval will only be granted if we can show that the discharge poses no risk to the receiving environment.

    Any chemicals discharged from the desalination plant will be neutralised and many are already present in seawater, with the exception of anti-scalant. Anti-scalant is used to clean reverse osmosis membranes and is commonly used and approved across Australia for discharge from desalination plants into marine environments.

    The marine environment of Boston and Proper Bays, off the coast of Billy Lights Point, has been continuously monitored and modelled since September 2021, with research findings peer-reviewed and validated by an independent Marine Science Review Panel consisting of internationally recognised experts.

    Marine Science Review Panel

    Role/Advice Area Member Organisation
    Chair Dr Don Plowman Former Deputy CE, PIRSA, and former Executive Director, SARDI
    Ecology Prof Sean Connell School of Biological Sciences, University of Adelaide
    Ecotoxicology Dr Anu Kumar CSIRO
    Environmental Engineering Dr Ian Wallis Consulting Environmental Engineers
    Marine Ecosystems Dr Beth Fulton CSIRO
    Oceanographer Dr John Luick Austides Consulting


    In 2022, the panel reviewed the following marine science reports:

    • Oceanographic monitoring and far-field modelling to inform desalination in Boston Bay – Dr Mark Doubell and Dr Charles James, SARDI
    • Marine Characterisation of Water Quality at Billy Lights Point and Point Boston, Port Lincoln – James Paterson, SA Water
    • Desalination Ecotoxicity Review – Dr Andy Markham and Dr Ross Smith, Hydrobiology
    • Boston Bay Marine Habitat Video Analysis – James Brook, J Diversity Pty Ltd


    The panel supported the research outcomes and recommendations, and advised that a desalination plant at Billy Lights Point can be constructed and operated without negatively impacting the marine environment if the intake and outfall structures are designed to the existing marine conditions.

    The Marine Science Review Panel will continue to provide specialist advice throughout the detailed design and development application phase of the project, and through the establishment of operational monitoring programs.


    SARDI far-field modelling

    Using a five-year model hindcast, the South Australian Research and Development Institute (SARDI) modelled predictions of the far-field salinity differences between a 12 GL per year desalination plant operating at full capacity and a model simulation with no desalination. The model showed a maximum seasonally-averaged salinity anomaly of 0.44 PSU within 250 to 500 metres of outfalls. This anomaly is equivalent to a 1.2 per cent change in the ambient salinity. Maximum seasonally-averaged anomalies were reduced to less than 0.1 PSU (equivalent to less than 0.3 per cent change in the ambient salinity) at distances greater than 1 km from outfalls. Modelling a 12 GL per year desalination plant was an ultraconservative approach, as this is more than double the initial capacity of 5.3 GL per year and 50 per cent larger than the proposed 8 GL per year ultimate capacity of the plant.

    This animation of the 5-year hindcast model shows daily bottom salinity distributions for model scenarios with and without desalination, and at each outfall location.

    S0 = no desalination plant — BL = Billy Lights Point — BLX = Billy Lights Point extended outfall
    PB = Point Boston — PBX = Point Boston extended outfall — CD = Cape Donington.


    Salinity levels

    The wider potential impacts on salinity in Boston and Proper Bays from the long-term operation of the desalination plant have been modelled by SARDI. Tidal data shows saline discharge falling well within natural background salinity levels after mixing, and therefore remaining well below the ANZECC & ARMCANZ water quality guidelines relating to changes in salinity.

    Modelling of the diffuser’s near- and far-field discharge zones will continue during detailed design, construction, and operation. Validation monitoring and reporting to regulators to ensure key environmental criteria are met would form part of our licence conditions.

    Through considered design of discharge diffusers, pipeline length, and outfall location, the desalination plant at Billy Lights Point would meet the minimum dilution standard by the time saline discharge meets the seabed under all conditions, including dodge tides.


    Impact on mussel spat from intake

    Mussels are broadcast spawners, with millions of larvae released by the female. Extraction of water by any marine system will remove particles, including larvae and spat. This currently occurs with various existing operations in Boston and Proper Bays drawing in seawater and, to date, there has been no known impact on mussel production and farming.

    During the detailed design phase, habitat mapping studies and particle tracking modelling will help to identify which areas are more sensitive in relation to the intake pipe. At Billy Lights Point, fewer than 0.1 per cent of the particles in the water, such as larvae, are at risk of coming within a 25m zone around the intake pipe.

    As the design for the plant progresses, we will continue to work with industry and marine specialists to optimise the intake location and ensure it is not located adjacent to an area where large numbers of mussels are likely to occur.

Page last updated: 26 Mar 2024, 02:51 PM