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Modelling the storage fleet

Storage charges when it's cheap, and discharges when it's expensive. This smooths extreme prices.

Fleet storage is dispatched to maximize its revenue, which smooths national power prices

The fleet storage dispatch is determined by the GB price without any storage. We use a Mixed Integer Linear Programme to determine the most optimal action for storage that maximises fleet storage revenues.

Fleet storage includes Battery, Pumped and Other (such as Compressed Air and Liquid Air) storage. In each year of the forecast and for each storage type, we take power capacity (MW) and energy capacity (MWh), and efficiency, to schedule charge and discharge.

Some of the storage fleet will provide grid services like frequency response

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Check out our ancillary service forecast and storage projection

We take out the ancillary requirement from the overall storage fleet to get the 'merchant' fleet - assuming storage that does not participate in ancillary markets will instead deploy its flexibility in wholesale markets.

Optimising the storage fleet gets complicated with more than ~30GW online

If the whole fleet charges (or discharges) at the same time, new price spikes would be created. This is a particular issue later on in the forecast, when we have 10's of GW of storage online. In reality, storage acts to smooth peaks and troughs. So, we make sure that the fleet dispatch acts to decrease price spreads:

  • Storage smooths demand: De-rated margin (ie demand minus renewable generation) is a good proxy for price, which we expect the storage fleet to smooth out. So, we use de-rated margin to model storage actions. When it's 10 GW below the average of the day, fleet storage can charge up to 10 GW; conversely, when it's above the median, it can discharge. This prevents fleet storage from increasing demand (and so price) above the daily average when it charges.
  • Storage charges and discharges over multiple periods: In our optimization model, we include a term that increases the number of periods during which fleet storage charging and discharging can occur. This spreads charge and discharge over more periods.
  • Fleet revenues are penalized if margin falls below 5 GW: We add a penalty term that lowers storage fleet revenues if the available generation (excluding DSR) minus demand falls below 5 GW. This prevents storage from contributing to scarcity and driving high prices.
  • Cycling cost or strike price: We model the cost of cycling - requiring a minimum price spread to charge and discharge - which reflects the CAPex of the system, assuming 8000 lifetime cycles. The numbers for CAPEX are from NREL and include learning rates. We assume the cost of pumped hydro will stay flat, and other storage will follow the same learning rate as battery storage.