HYBRID POWER/ENERGY GENERATION SYSTEM DESIGN THROUGH MULTISTAGE DESIGN OPTIMIZATION PROBLEM WITH COMPLEMENTARITY CONSTRAINTS

机译：混合动力/能源生成系统设计通过互补限制的多级设计优化问题设计

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The optimal design of hybrid power generation systems (HPGS) can significantly improve the economical and technical performance of power supply. However, the discrete-time simulation with logical disjunctions involved in HPGS design usually leads to a nonsmooth optimization model, to which well established techniques for smooth nonlinear optimization could not be directly applied. This paper proposes a multistage design optimization problem with complementarity constraints approach for HPGS design, which introduces a complementarity formulation of the nonsmooth logical disjunction, as well as a multistage decomposition framework, to ensure a fast local solution. A numerical study of a stand-alone hybrid photovoltaic (PV)/wind power generation system is presented to demonstrate the effectiveness of the proposed approach.

机译：混合动力发电系统（HPGS）的最佳设计可以显着提高电源的经济性和技术性能。然而，与HPGS设计中涉及的逻辑剖面的离散时间模拟通常导致非光滑优化模型，该模型无法直接应用用于平滑非线性优化的良好的技术。本文提出了具有HPGS设计的互补约束方法的多级设计优化问题，这引入了非逻辑缺陷的互补性配方，以及多级分解框架，以确保快速的本地解决方案。提出了一种独立式混合光伏（PV）/风力发电系统的数值研究以证明所提出的方法的有效性。

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《International Design Engineering Technical Conferences》|2010年||共13页
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Shen Lu; Nathan B. Schroeder; Harrison M. Kim;
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HYBRID POWER/ENERGY GENERATION SYSTEM DESIGN THROUGH MULTISTAGE DESIGN OPTIMIZATION PROBLEM WITH COMPLEMENTARITY CONSTRAINTS

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