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Topic: Frequency

[Episode #174] – Decarbonizing Britain’s Grid

As the energy transition proceeds and variable renewable power from wind and solar displaces conventional generators, strict operational limits for the grid's voltage, frequency, and inertia must be maintained. To do this, grid operators are increasingly procuring so-called “stability services” and making other enhancements to the grid that ensure stability.

In this episode, we take a close look at how Great Britain is undertaking this stability challenge by interviewing Julian Leslie, Head of Networks and Chief Engineer at National Grid ESO, which runs the transmission grid for the country. Not only does National Grid ESO operate the fastest-decarbonizing electricity network in the world, it has also recently achieved several important technical accomplishments for the first time in the world, including implementing cutting edge tools that allow accurate measurements of inertia across its system; using grid-forming inverters to provide synthetic inertia; and using synchronous condensers without an associated prime mover. And in another world-first achievement, the company has actually written the specification for using grid-forming inverters into its grid code.

Julian explains all of these technical concepts in today’s conversation and lays out the deliberate strategy that the company is taking to ensure that it can deliver on Great Britain’s decarbonization objectives while maintaining system stability and saving British consumers a great deal of money.

This is a highly technical episode with a Geek Rating of 9, so if you want to brush up on grid power engineering concepts first before listening to this one, you could start with our Energy Basics miniseries—in particular, Episode #126 about how power generators and the grid works—then move on to Episode #55 on voltage stability, and then Episode #153 on grid-forming inverters. Then return to this one.

Geek rating: 9

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[Episode #134] – Storage Grows Up

Battery storage in the US has grown ten-fold in just five years, and its growth is only accelerating. Just a single utility procurement announced in May of this year was for four times as much utility battery capacity as existed in the entire US five years ago.

But battery storage isn’t just getting bigger. It’s also stretching well beyond utility-scale frequency control into new applications and market segments. In fact, fully one-third of the installed battery capacity in the US now is actually on the customer side of the meter, where it is being used to do things like mitigate demand charges and provide resilience—for example, allowing a microgrid to keep functioning when grid power is shut off in a wildfire event.

And then there are all the other kinds of non-battery storage, which are finding new momentum as well. It’s an exciting time of rapid evolution in the storage sector. To help us understand it all, Jason Burwen, the Vice President of Policy at the Energy Storage Association who last joined us back in Episode #8, returns to the show for this very wonky but highly informative look at the changing market, policy environment, and technologies of storage.

Geek rating: 9

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[Episode #55] – Voltage Stability

Energy transition on the power grid is much more complicated than simply replacing fossil fuel and nuclear generators with wind and solar generators. Maintaining high-quality, reliable power will require a lot more than simply adding batteries to a high-renewables grid. Engineers have to maintain stable voltage, current, and real power… which involves manipulating elusive factors like reactive power and frequency, while implementing technologies to compensate for various kinds of instability. It’s very technical, and we don’t claim to really understand it, but in this episode we’re going to take an initial whack at it anyway with the help of a systems engineer with ABB, in an attempt to understand a little bit more about the arcane art of power engineering, and in particular, voltage stability.

Geek rating: 11

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