电阻型超导限流器R-SFCL(resistive superconducting fault current limiter)在柔性直流系统中的优化配置是超导限流器应用的关键技术。通过对电阻型超导限流器在模块化多电平换流器型直流系统中的应用场景分析,得到R-SFCL不同安装位置...电阻型超导限流器R-SFCL(resistive superconducting fault current limiter)在柔性直流系统中的优化配置是超导限流器应用的关键技术。通过对电阻型超导限流器在模块化多电平换流器型直流系统中的应用场景分析,得到R-SFCL不同安装位置对其限流能力的影响,并改进了超导限流器和直流断路器配合下换流站闭锁初期的多端柔性直流系统短路电流迭代计算方法,在此基础上提出了基于人工免疫算法的R-SFCL柔性直流系统中的优化配置计算方法。最后,通过五端柔性直流系统实例研究,给出了该系统中R-SFCL的最佳安装位置、安装数量、限流电阻大小和限流效果。展开更多
Synthesis and optimization of utility system usually involve grassroots design, retrofitting and operation optimization, which should be considered in modeling process. This paper presents a general method for synthes...Synthesis and optimization of utility system usually involve grassroots design, retrofitting and operation optimization, which should be considered in modeling process. This paper presents a general method for synthesis and optimization of a utility system. In this method, superstructure based mathematical model is established, in which different modeling methods are chosen based on the application. A binary code based parameter adaptive differential evolution algorithm is used to obtain the optimal con figuration and operation conditions of the system. The evolution algorithm and models are interactively used in the calculation, which ensures the feasibility of con figuration and improves computational ef ficiency. The capability and effectiveness of the proposed approach are demonstrated by three typical case studies.展开更多
文摘电阻型超导限流器R-SFCL(resistive superconducting fault current limiter)在柔性直流系统中的优化配置是超导限流器应用的关键技术。通过对电阻型超导限流器在模块化多电平换流器型直流系统中的应用场景分析,得到R-SFCL不同安装位置对其限流能力的影响,并改进了超导限流器和直流断路器配合下换流站闭锁初期的多端柔性直流系统短路电流迭代计算方法,在此基础上提出了基于人工免疫算法的R-SFCL柔性直流系统中的优化配置计算方法。最后,通过五端柔性直流系统实例研究,给出了该系统中R-SFCL的最佳安装位置、安装数量、限流电阻大小和限流效果。
基金Supported by the Major State Basic Research Development Program of China(2012CB720500)the National Natural Science Foundation of China(U1162202,61222303)+3 种基金the National Science Foundation of Shanghai(14ZR1410000)Shanghai R&D Platform Construction Program(13DZ2295300)Shanghai Rising-Star Program(13QH1401200)Shanghai Leading Academic Discipline Project(B504)
文摘Synthesis and optimization of utility system usually involve grassroots design, retrofitting and operation optimization, which should be considered in modeling process. This paper presents a general method for synthesis and optimization of a utility system. In this method, superstructure based mathematical model is established, in which different modeling methods are chosen based on the application. A binary code based parameter adaptive differential evolution algorithm is used to obtain the optimal con figuration and operation conditions of the system. The evolution algorithm and models are interactively used in the calculation, which ensures the feasibility of con figuration and improves computational ef ficiency. The capability and effectiveness of the proposed approach are demonstrated by three typical case studies.
