论文部分内容阅读
碳排放流理论为电力系统中碳排放责任的分摊提供了新的视角。基于节点碳势计算中的邻接特性,文中提出了电力系统碳排放流的递推算法,论述了递推算法的基本原理及计算过程。然后,分析对比了递推算法和已有的直接算法的特点和适用性,并进一步将二者结合,提出了碳排放流的协同计算流程。最后,以简单电力系统为分析对象,具体说明了所提递推算法的递推过程。并以IEEE 24节点系统和挪威2 383节点系统为例,测试了递推算法在实际电力系统应用中的有效性。
Carbon emissions flow theory provides a new perspective for the sharing of carbon emissions in the power system. Based on the adjacency characteristics in the calculation of node carbon potential, a recursive algorithm of carbon emission in power system is proposed in this paper. The basic principle and calculation process of recursive algorithm are discussed. Then, the characteristics and applicability of the recursive algorithm and the existing direct algorithm are analyzed and compared. The two are combined to propose a collaborative calculation flow of carbon emission flow. Finally, taking the simple power system as the analysis object, the recursion process of the proposed recursive algorithm is described in detail. Taking the IEEE 24-bus system and 2 383-node system in Norway as an example, the validity of the recursive algorithm in real power system applications is tested.