Skip to main content
Start of main content

Clean, efficient, renewable energy on demand

At a Glance

  • 2K

    MW Power

  • 27KM

    Large Diameter Tunnels

Location
New South Wales, Australia

Snowy 2.0 Pumped Storage Tender Design

As our communities grow, so does our energy demand. Snowy 2.0 is the pumped hydro expansion of the Snowy Mountain Scheme, providing clean, efficient, and reliable energy for generations to come.

By linking two reservoirs, the Snowy 2.0 pumped storage project will add 2,000 megawatts (MW) to the existing 4,100MW hydroelectric power capacity of the original Snowy Mountain Scheme. Uniquely, Snowy 2.0’s turbines are reversible with the ability to pump water back up to the top dam, where it will be stored and used to generate energy on demand. The movement of water between storage units provides much-needed flexibility. A major engineering challenge was designing a solution that taps into existing reservoir storage, meaning the scheme can be developed without constructing any new dams. This, coupled with the majority of the structures currently situated underground, minimises the environmental impacts within the national park—a UNESCO declared Biosphere Reserve.

Collaborating with the owner’s OEM equipment supplier, our team developed an optimised power station arrangement, recommending different hydromechanical and electrical equipment. The result? By reducing the overall dimensions of the underground powerhouse, we were able to lower costs and improve the stability and performance of the facility.

At a Glance

  • 2K

    MW Power

  • 27KM

    Large Diameter Tunnels

Location
New South Wales, Australia

We’re better together

  • Become a client

    Partner with us today to change how tomorrow looks. You’re exactly what’s needed to help us make it happen in your community.

  • Design your career

    Work with passionate people who are experts in their field. Our teams love what they do and are driven by how their work makes an impact on the communities they serve.

End of main content
To top