In this chapter, a long-term multi-stage dynamic planning optimization method is proposed for the dynamically expanding integrated energy system considering carbon reduction targets. With the minimization of the total cost of the full planning cycle as the objective function, a multi-regional integrated energy system planning model considering the carbon trading mechanism is developed to find the optimal equipment allocation strategy under different carbon emission constraints. Simulation results for typical cases show that interconnection enables coordinated operation between multiple integrated energy systems and establishes efficient energy conversion and collaboration mechanisms, thus achieving stability and reliability.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Long-Term Design Optimization of Regional Integrated Energy Systems Considering CO2 Emissions Reduction

  • Hongbo Ren,
  • Qiong Wu,
  • Weisheng Zhou

摘要

In this chapter, a long-term multi-stage dynamic planning optimization method is proposed for the dynamically expanding integrated energy system considering carbon reduction targets. With the minimization of the total cost of the full planning cycle as the objective function, a multi-regional integrated energy system planning model considering the carbon trading mechanism is developed to find the optimal equipment allocation strategy under different carbon emission constraints. Simulation results for typical cases show that interconnection enables coordinated operation between multiple integrated energy systems and establishes efficient energy conversion and collaboration mechanisms, thus achieving stability and reliability.