Journal
IEEE TRANSACTIONS ON SUSTAINABLE ENERGY
Volume 14, Issue 3, Pages 1337-1345Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TSTE.2022.3156869
Keywords
Adequacy; composite system forecasting; optimization; power system economics; planning; and reliability; wind and solar power generation
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Capacity planning and resource adequacy assessments often overlook important interactions of weather-based resources by relying on averaging and sampling techniques. We propose a method to evaluate the economic value of information and reliability risk in sustainable systems with high renewable energy generation. Our analysis shows that modeling average renewable outputs instead of hourly coincident samples can result in a 16% increase in system costs and a 38-fold increase in expected unserved energy. Investment recommendations vary significantly based on the years included in the analysis, and selecting the wrong year can lead to increased system costs and failure to meet reliability and renewable design targets.
Capacity planning models and resource adequacy assessments have often relied on averaging and sampling techniques that disregard important reasonably expected interactions of weather-based resources. We provide a method to capture the economic value of information and reliability risk from using inadequate sample data to design sustainable systems with high renewable generation. Analysis of long run portfolio cost and sources of uncertainty shows as much as a 16% system cost increase with a 38-fold increase in expected unserved energy when average renewable outputs are modeled rather than a 10 year hourly coincident sample, which illustrates the pitfalls of averaging data and ignoring temporal interdependencies. Investment recommendations can significantly differ depending on which years and how many years are included in the analysis. We show that selecting the wrong year can increase system costs by over 4% with a 7-fold increase in expected unserved energy, failing to meet planned reliability and renewable design targets. It is possible for a single year of coincident load-wind-solar data to reasonably approximate system characteristics; however, the best year changes with renewable penetration.
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