DiscoverBeyond Lithium24 | Kieran Claffey β€” Senior Research Engineer, Southern Company
24 | Kieran Claffey β€” Senior Research Engineer, Southern Company

24 | Kieran Claffey β€” Senior Research Engineer, Southern Company

Update: 2024-03-27
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🏭 For the electric utilities, what is the most important metric for energy storage technology? What is the rule of 17%? What is dunkelflaute?! For answers, we turn to Kieran Claffey of Southern Company in discussion with BioZen's CEO Nate Kirchhofer. To add some weight to Kieran's opinion, consider that as of 2021, Southern Company is the second largest utility company in the US, serving 9 million gas and electric customers in 6 states and delivering electricity to 120,000 square miles of territory.

The Department of Energy targets a $0.05/kWh levelized cost of storage (LCOS) as a key performance parameter for energy storage technology. Kieran emphasizes that utilities instead employ a comprehensive approach considering approximately 30 parameters, including geographic flexibility, energy density, power density, and lots more. The most important? Reliability, and CapEx.

Kieran highlights the utilities' need for safe and cost-effective 10-hour duration batteries, which is (and will likely continue to be) beyond lithium-ion's capabilities, even though Li-ion will serve mobile applications and durations <6 h.


This insight is possible because Kieran is a subject matter expert in energy storage at Southern Company: his experience ranges from startups making microwatt (1e-6 W) solid lithium batteries, to now where he considers gigawatt (1e9 W) projects, all within the context of regulations like NFPA 855. This enabled him to publish a peer-reviewed manuscript recently, entitiled "Hazards of lithium-ion battery energy storage systems (BESS), mitigation strategies, minimum requirements, and best practices." In that paper the authors emphasize the importance of proper spacing to prevent battery fires, and dispels myths about the frequency of Li-ion battery explosion events: the probability is about 1 in 1400 (at worst), making these systems at least an order of magntude safer than the common claim of "1 in 100 fail."


We get a few predictions about the future energy storage mix: that Li-ion and sodium-ion will dominate short-duration storage (0-6 hours), while thermal energy storage and flow batteries may be suitable for medium durations (6-12 hours). For longer durations (12-100 hours), options include pumped hydro, compressed air energy storage, and new battery technologies; hydrogen will likely be one of those, but it seems that a mature hydrogen economy is still a couple decades away due to costs, and everything pales in comparison to the 47 days 😲 of fossil fuel stock in the US.


Stick around for a little career advice within the broader goal of contributing to decarbonizationβ€”whether through new energy storage technology or even fossil fuelsβ€”and tidbits about the burgeoning cleantech scene in Georgia ($20B invested for 20,000 jobs in the southeast in the last 4 years).


Power on.



Recorded 29 November 2023.



[BioZen Batteries produces this show as part of the Clean Power Media Group at cleanpower.media. If you would like to interact more, please send us an email at ⁠⁠hello@biozenbatteries.com⁠⁠, write a comment, like, follow, share, or even leave us a voice message on your favorite episodes.]



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24 | Kieran Claffey β€” Senior Research Engineer, Southern Company

24 | Kieran Claffey β€” Senior Research Engineer, Southern Company

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