Siemens JV Eyes Tesla-Topping Battery for Australia’s Grid

(Bloomberg) -- Three years after Elon Musk took up a challenge to solve Australian power outages by building the world’s biggest battery, a Siemens AG venture wants to install even larger ones to bolster renewable investment in the nation.

Fluence, a partnership between Germany’s Siemens and Arlington, Virginia-based AES Corp., is proposing to build two giant lithium-ion batteries at strategic points on the transmission grid to allow better access for clusters of wind and solar plants. It says it can have the units up and running within 18 months, much quicker than building out transmission infrastructure to accommodate more renewables.

Australia is seen as a perfect testing ground for innovation in clean energy, as a developed market with plenty of space to benefit from its abundant sunshine and wind. There’s also a need for new capacity with the expected retirement of several aging coal-fired plants over the next decade. However, regional grid bottlenecks and a lack of clear central policy saw investment in the sector drop by 38% last year, according to BloombergNEF, following strong growth in the prior two years.

Siemens JV Eyes Tesla-Topping Battery for Australia’s Grid

To solve the issue of bottlenecks, Fluence is touting “virtual transmission lines” that would integrate battery storage systems along the network, injecting or absorbing electricity as needed and regulating frequency and voltage. In a submission to the Australian Energy Market Operator, Fluence proposed installing two 250-megawatt facilities, which would eclipse the 150-megawatt battery at Hornsdale in South Australia, installed by Musk’s Tesla Inc. in 2017 and currently billed as the world’s largest.

“Think of it as being able to widen a highway instantaneously to accommodate surges in traffic,” Jaad Clifford-Bolt, senior business development manager at Fluence, said in an email. “That surge could be solar or wind output on either side of the interconnector that needs to be exported, or a sudden spike in demand on either side.”

Batteries also avoid the need to build the infrastructure required in “traditional poles and wires solutions,” he said.

“This lets you place them where they can provide the greatest value and relief for the network, whether that is at a solar farm, a substation or completely on its own at an advantageous connection point,” Clifford-Bolt said.

The sticking point for batteries until now has typically been the price tag, but that’s been cut in half since 2018, according to BloombergNEF. Fluence, which already operates a 30-megawatt battery storage system at Ballarat in Victoria state, declined to comment on the cost of its project.

Solar and wind facilities in Australia have tended to focus on areas with access to cheap land and a favorable weather profile, but these clusters are often in remote regions with limited grid access. Last year, AEMO was forced to curtail as much as 50% of the output of several facilities due to concerns they might compromise system stability.

Read More: Australia Power Grid Seen Challenged by Renewables Surge

A recent AEMO study found that the country could hit 75% renewables penetration by 2025, but would require enhancements to grid infrastructure “to capitalize on the geographic diversity of Australia’s renewable energy endowment.” The operator’s long-term plan for the network supports investment in new or upgraded transmission links, but it is also seeking “non-network options”, such as Fluence’s battery proposal, to assist the process.

Fluence is not the only company looking to scale up battery technology. France’s Neoen SA, which owns the Hornsdale facility, has submitted a proposal to install a 600-megawatt unit near Geelong in Victoria.

(An earlier version of this story corrected the spelling of Clifford-Bolt.)

©2020 Bloomberg L.P.

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