终端变电站在城市110 k V电网中的广泛采用使得对220 k V城市电网的供电能力进行以典型网架结构为单位的解耦分析成为可能。针对220 k V城市电网中的典型网架结构—自愈式环网的供电能力问题,提出一种考虑电力系统N-1静态安全约束的非...终端变电站在城市110 k V电网中的广泛采用使得对220 k V城市电网的供电能力进行以典型网架结构为单位的解耦分析成为可能。针对220 k V城市电网中的典型网架结构—自愈式环网的供电能力问题,提出一种考虑电力系统N-1静态安全约束的非线性优化模型,并采用改进差分进化算法进行寻优;寻优过程中,使用内嵌的牛顿—拉夫逊法进行预想事故集的潮流校核。对某市220 k V自愈式环网进行算例分析的结果表明,所提模型和算法能够准确地求解其在给定条件下的最大供电能力,同时能指出受限的约束条件,具有较强的有效性和实用性。展开更多
An approach of transmission network expan-sion planning with embedded constraints of short circuit currents and N-1 security is proposed in this paper.The problem brought on by the strong nonlinearity property of shor...An approach of transmission network expan-sion planning with embedded constraints of short circuit currents and N-1 security is proposed in this paper.The problem brought on by the strong nonlinearity property of short circuit currents is solved with a linearization method based on the DC power flow.The model can be converted to a mixed-integer linear programming problem,realizing the optimization of planning model that considers the constraints of linearized short circuit currents and N-1 security.To compensate the error caused by the assump-tions of DC power flow,the compensation factor is pro-posed.With this factor,an iterative algorithm that can compensate the linearization error is then presented.The case study based on the IEEE 118-bus system shows that the proposed model and approach can be utilized to:opti-mize the construction strategy of transmission lines;ensure the N-1 security of the network;and effectively limit the short circuit currents of the system.展开更多
针对我国某地区由于110/66 k V高压配电网形成网状布局导致短路电流超标的问题,应用电网分层分区的方法提出两种分区运行方式,并对两种分区方式进行N-1静态安全分析和短路电流限制效果比较。结果表明:将66 k V线路分成4片网运行后可有...针对我国某地区由于110/66 k V高压配电网形成网状布局导致短路电流超标的问题,应用电网分层分区的方法提出两种分区运行方式,并对两种分区方式进行N-1静态安全分析和短路电流限制效果比较。结果表明:将66 k V线路分成4片网运行后可有效解决该地区短路电流超标问题,该分层分区控制方法可用于短路电流水平过高的配电网运行规划中。展开更多
提出了一种输电系统多阶段协调规划模型,模型中计入了以N-1静态安全条件表示的可靠性约束,并对采用粒子群优化算法PSO(Partic le Swarm Optim ization)来求解该模型进行了研究,引入新的变异策略对基本PSO算法进行了改进,改进后的算法可...提出了一种输电系统多阶段协调规划模型,模型中计入了以N-1静态安全条件表示的可靠性约束,并对采用粒子群优化算法PSO(Partic le Swarm Optim ization)来求解该模型进行了研究,引入新的变异策略对基本PSO算法进行了改进,改进后的算法可以处理多维的离散变量,有可能使粒子摆脱局部最优,提高搜索效率。仿真算例表明该方法用于输电系统的多阶段协调规划是可行的。展开更多
文摘终端变电站在城市110 k V电网中的广泛采用使得对220 k V城市电网的供电能力进行以典型网架结构为单位的解耦分析成为可能。针对220 k V城市电网中的典型网架结构—自愈式环网的供电能力问题,提出一种考虑电力系统N-1静态安全约束的非线性优化模型,并采用改进差分进化算法进行寻优;寻优过程中,使用内嵌的牛顿—拉夫逊法进行预想事故集的潮流校核。对某市220 k V自愈式环网进行算例分析的结果表明,所提模型和算法能够准确地求解其在给定条件下的最大供电能力,同时能指出受限的约束条件,具有较强的有效性和实用性。
基金This work was supported by National Key Technology R&D Program of China(No.2013BAA01B02)National Natural Science Foundation of China(Nos.51325702,51407100).
文摘An approach of transmission network expan-sion planning with embedded constraints of short circuit currents and N-1 security is proposed in this paper.The problem brought on by the strong nonlinearity property of short circuit currents is solved with a linearization method based on the DC power flow.The model can be converted to a mixed-integer linear programming problem,realizing the optimization of planning model that considers the constraints of linearized short circuit currents and N-1 security.To compensate the error caused by the assump-tions of DC power flow,the compensation factor is pro-posed.With this factor,an iterative algorithm that can compensate the linearization error is then presented.The case study based on the IEEE 118-bus system shows that the proposed model and approach can be utilized to:opti-mize the construction strategy of transmission lines;ensure the N-1 security of the network;and effectively limit the short circuit currents of the system.
文摘针对我国某地区由于110/66 k V高压配电网形成网状布局导致短路电流超标的问题,应用电网分层分区的方法提出两种分区运行方式,并对两种分区方式进行N-1静态安全分析和短路电流限制效果比较。结果表明:将66 k V线路分成4片网运行后可有效解决该地区短路电流超标问题,该分层分区控制方法可用于短路电流水平过高的配电网运行规划中。
文摘提出了一种输电系统多阶段协调规划模型,模型中计入了以N-1静态安全条件表示的可靠性约束,并对采用粒子群优化算法PSO(Partic le Swarm Optim ization)来求解该模型进行了研究,引入新的变异策略对基本PSO算法进行了改进,改进后的算法可以处理多维的离散变量,有可能使粒子摆脱局部最优,提高搜索效率。仿真算例表明该方法用于输电系统的多阶段协调规划是可行的。