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Wind generation can provide ancillary services, CAISO tests suggest

image credit: Tule Wind Farm near San Diego. Credit: Avangrid Renewables
DW Keefer's picture
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DW Keefer is a Denver-based energy journalist who writes extensively for national and international publications on all forms of electric power generation, utility regulation, business models...

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  • Mar 18, 2020

Tests in California support the idea that a commercial wind farm equipped with an inverter-based smart controller can provide grid support services that include balancing or regulation up and down, voltage regulation control, active power control through ramping and frequency response.

The California Independent System Operator (CAISO), Avangrid Renewables, National Renewable Energy Laboratory and General Electric conducted tests to determine if a large utility-scale wind power plant can provide ancillary services to the electric grid.

The results are similar to those reported in 2018 from tests that involved an inverter-controlled solar power plant. That earlier study focused on a 300 megawatt (MW) plant. Data collected during the test showed how advanced power control systems can help solar photovoltaics provide services that range from spinning reserves, load following, voltage support, ramping, frequency response, variability smoothing and frequency regulation to power quality.

In the most recent tests involving wind power, the research team worked over the course of several days in 2019 at Avangrid Renewables’ Tule Wind Farm. The plant is located in CAISO’s balancing authority east of San Diego and has a maximum capacity of 131.1 MW. It also participates in CAISO’s energy market.

The tests were designed to learn whether a wind power plant with an advanced plant-level controller can enhance system reliability by providing reliability services in order to:

  • Ramp up/down at specified ramp rates
  • Respond to 4-second control signals from CAISO’s energy management system
  • Control scheduled voltage when the plant’s output varies from zero to full output
  • Provide fast frequency control within the inertia response time frame
  • Provide frequency regulation similar to the governor actions of a conventional resource on governor control
  • Respond to frequency response deviations for low- as well as high-frequency events.

The report said that a few grid operators use renewable curtailment as a resource. For example, the report said that Public Service Company of Colorado can control its wind generation to provide both up- and down-regulation services. The utility uses wind reserves as an ancillary service for frequency regulation by integrating wind resources located in its footprint to its automatic generation control (AGC) system.

The plant includes a power plant controller (PPC) developed by GE. It is designed to regulate real and reactive power output so that it behaves as a single large generator.

The controller is designed to provide a number of plant-level control functions:

  • Dynamic voltage and/or power factor regulation and closed-loop voltage control at the point of interconnection or the high side of the generator step-up transformer
  • Real power output curtailment when required so that the wind power plant does not exceed an operator-specified limit
  • Ramp-rate controls to ensure that output does not ramp up or down faster than a specified ramp-rate limit
  • Frequency control (governor-type response) to reduce plant output in case of an over-frequency situation or increase plant output, if possible, in case of an under-frequency situation
  • Fast startup and shutdown control when the wind is available.

Although the Tule plant includes individual inverters, the plant controller is intended to coordinate overall power output to provide typical large power plant services.

The tests demonstrated the plant’s ability to follow CAISO’s four-second automated generation control dispatch signals. For the test, the plant was curtailed by 20 MW from its available peak power to have the maneuverability to follow CAISO’s AGC signals. During the tests, performance described as "fast and accurate" was demonstrated at different wind conditions.

For the frequency response tests, the plant also operated in a curtailed mode to offer enough headroom to increase output in response to the frequency decline that took place outside of a defined deadband. Headroom is achieved by sending a curtailment command to the plant.

The plant again demonstrated "fast and accurate" frequency response performance for different droop settings (5% and 4% droop and 36 mHz and 16 mHz deadbands) under various wind conditions for both under- and over-frequency events.

The plant also demonstrated the ability to operate in voltage regulation mode and power factor control modes. The plant can operate in only one of the three modes at a time, with seamless transition from one mode to another, the report said. Under test conditions, the plant controller was able to maintain the specified voltage set points at the point of interface by regulating the reactive power produced or absorbed by the wind inverters.

Also, the plant’s ability to produce or absorb reactive power at nearly zero megawatt production (referred to as STATCOM mode) was demonstrated.

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