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A Stochastic Rolling Horizon-Based Approach for Power Generation Expansion Planning

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Listed:
  • Hanyun Wang
  • Tao Wang
  • Xinyi Wang
  • Bing Li
  • Congmin Ye
  • Xiao-Shun Zhang

Abstract

Variable renewable energy sources introduce significant amounts of short-term uncertainty that should be considered when making investment decisions. In this work, we present a method for representing stochastic power system operation in day-ahead and real-time electricity markets within a capacity expansion model. We use Benders’ cuts and a stochastic rolling-horizon dispatch to represent operational costs in the capacity expansion problem (CEP) and investigate different formulations for the cuts. We test the model on a two-bus case study with wind power, energy storage, and a constrained transmission line. The case study shows that cuts created from the day-ahead problem gives the lowest expected total cost for the stochastic CEP. The stochastic CEP results in 3% lower expected total cost compared to the deterministic CEP capacities evaluated under uncertain operation. The number of required stochastic iterations is efficiently reduced by introducing a deterministic lower bound, while extending the horizon of the operational problem by persistence forecasting leads to reduced operational costs.

Suggested Citation

  • Hanyun Wang & Tao Wang & Xinyi Wang & Bing Li & Congmin Ye & Xiao-Shun Zhang, 2021. "A Stochastic Rolling Horizon-Based Approach for Power Generation Expansion Planning," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-11, June.
    • Handle: RePEc:hin:jnlmpe:6635829
    DOI: 10.1155/2021/6635829
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