Expected unserved energy
Expected unserved energy, sometimes called expected energy not supplied and a loss of energy expectation,, is a key grid reliability metric used to assess the resource adequacy of electricity generation. The deterministic version of this index is called unserved energy. It represents the total amount of energy that is expected to be undelivered to customers when the demand for electricity exceeds the available supply. EUE is typically expressed in megawatt hours per year. Normalized value normalized expected unserved energy, allows comparison of across different system sizes.
Unlike the non-energy indices such as loss of load expectation, which only measures the anticipated time of a supply shortfall, EUE quantifies the volume of the energy deficit and thus the possible economic loss.
Calculation and methodology
EUE is calculated by summing up the probable amounts of unserved energy for each period of a potential shortfall over a given timeframe, usually one year. The calculation involves multiplying the probability of electrical outage by the amount of energy that was expected to be delivered, but was curtailed due to the outage.System operators and planners use sophisticated probabilistic models to compute EUE. These models account for a wide range of variables, including:
- The probability of forced outages for each generating unit.
- Scheduled maintenance for generators.
- Limitations on power transmission between different regions.
- The variability of renewable energy sources like wind and solar.
- Forecasts of hourly electricity demand.
Target values
For example, the Australian Energy Market Operator targets the 0.002% normalized value. In the US, the use of NUSE is not standardized, yet the US Department of Energy and North American Electric Reliability Corporation have selected the same threshold of 0.002%, with some US entities considering much lower limits of 0.0001% to 0.0002%.