线性规划平台中弹性最优微电网调度组合

Archana Tamrakar, S. Pandey
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引用次数: 0

摘要

近年来,全球自然灾害发生率惊人,迫切需要在发电领域寻找可行的解决方案,以控制污染能源,这是导致全球变暖的主要原因。微电网有助于将可再生能源渗透到现有的配电系统中,通过减少对主电网的依赖来减少全球的总体碳足迹。高效、线性的微电网资源调度算法以其简单、快速的计算能力受到人们的关注。本文旨在通过设计一种基于混合整数线性规划的微电网调度问题,在多种场景下,使电力公司的电力成本最小化,同时保持发电和负荷平衡。在一个小型微电网上实施了该策略,验证了其有效性。本文主要对各种场景下的微电网进行了优化调度,并借助混合整数线性规划(MILP)算法获得了全局最小的电力成本。微电网是一种局部提供能源的小型电网,它提供了分布式能源与局部连接负荷之间的集成。微电网既可以与主电网并网运行,又可以独立运行,也可以在这两种模式之间切换,微电网的运行方式取决于系统运行情况。当电网与微电网集成并协同工作时,电网的可靠性得到了更大的提高。与上游电网的电力交换是通过公共耦合点(PCC)完成的。微电网具有可再生能源,即光伏、风能和不可再生能源,DG、FC和MC与电池储能型系统和本地连接负载相连。所以这是一个非常可靠的场景,主电网与微电网并网,是更有利、经济、稳定的系统类型。关键词:最优微电网调度,线性规划DOI: 10.7176/APTA/76-05出版日期:2019年3月31日
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Resilient and Optimal Microgrid Scheduling Portfolio in Linear Programming Platform
In recent year, alarming rate of natural disasters around the world have demanded the need for operative solution in field of power generation, to control polluted energy sources which are major cause of global warming. Microgrid facilitates penetration of renewable energy sources into the existing distribution systems to reduce the overall carbon footprint of the globe by reducing the dependency on the main grid. Efficient but linear microgrid resource scheduling algorithms are gaining interest in present time due to its simplicity and fast computation. This research paper aims to serve the purposes by designing a mixed integer linear programming based microgrid scheduling problem while various types of scenario, minimize the electricity cost for the utilities also maintain the generation and load balance. The strategy is implemented on a small microgrid  to prove its efficacy .In this paper mainly optimal scheduling of microgrid has been done in various scenario, and obtained there global minimum electricity cost to the help of mixed integer linear programming (MILP) algorithm.  Microgrid is a small scale type of power grid, which provides the energy locally, its offers integration between distributed energy resources and the locally connected loads. Microgrid able to be operated with the main grid and in standalone mode also ability to transitions between these two modes, the mode of operation of microgrid is depends on the system operating condition. The reliability of power grid is improving more when it’s integrated with the Microgrid and works together. Power exchange with the upper stream grid is done through the point of common coupling (PCC). Microgrid having renewable energy resources i.e. PV, Wind and non-renewable energy resources, DG, FC, and MC connected with the Battery storage type system and locally connected loads. So it is a very reliable scenario, main grid with the microgrid, it is more beneficial, economy and stable types of system. Keywords : Optimal Microgrid Scheduling, Linear Programming DOI : 10.7176/APTA/76-05 Publication date :March 31 st 2019
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