AWS Truepower LLC released openWind Enterprise 1.3 which further refines the wind farm design process with improved loss and uncertainty estimates. In addition to the ability to optimize for cost of energy and assess deep array impacts, current Enterprise users will receive Time‐Series Energy Capture and Effective Turbulence Intensity upgrades, along with a pilot of Time‐Scheduling of Turbines. These features are designed to help developers save time and meet the requirements of utilities and turbine manufacturers.
Key features of openWind Enterprise 1.3 include:
- Effective Turbulence Intensity: Provides a measure of the fatigue loading on each turbine due to ambient and wake‐induced turbulence. Users can calculate effective turbulence values according to the latest amendment to IEC614000‐1 (ed. 3), and specify how wakes are modeled.
- Times‐Series Energy Capture: Allows users to assess diurnal and seasonal impacts of turbulence intensity and air density as well as temperature variance shutdown losses. By inserting the time‐element back into the energy capture analysis, users can more easily see the effects of summer and winter differences as well as different daytime and nighttime stability regimes.
- Time‐Scheduling of Turbines: Allows users to switch off individual turbines by time of day or year and switch individual turbines to a different power curve. This is particularly useful when attempting to quantify the impact of grid curtailment; switching to low noise power curves at night in order to meet local regulations; or switching off a turbine for specific times of day during those days of the year for which shadow flicker may be a problem.
openWind Enterprise software is a wind farm design and optimization software based on the open source version of openWind. Currently there are over 3,500 users of the free community version of openWind. openWind Enterprise was developed for wind developers who need more powerful features ‐ an industry‐leading geographical information systems (GIS) interface, the ability to optimize for cost of energy, assess deep array impacts, define and analyze strategies
for managed shut‐down of turbines.