电力系统自动化2026,Vol.50Issue(9):3-12,10.DOI:10.7500/AEPS20250630021
以调节责任促内生安全:新型电力市场范式探索
Fostering Endogenous Security via Regulation Responsibility:Exploration of New Electricity Market Paradigm
摘要
Abstract
In the context of the energy transition,resolving the"energy trilemma",i.e.balancing security and reliability,economic efficiency,and green low-carbon development,has become the core challenge in the evolution of power systems.To address this,based on an analysis of the adaptability dilemmas within the classic electricity market paradigm,this paper proposes a novel electricity market paradigm centered on a market-based regulation responsibility system.By clearly defining property rights for system balancing services and introducing standardized"substitute power products"as trading carriers,this paradigm reshapes market entities into self-scheduling units that trade autonomously around regulation responsibility curves.Furthermore,leveraging the concept of multi-time scale self-similarity,it establishes a collaborative mechanism between the"substitution market"and the"regulation market".This incentivizes market entities to optimize the allocation and utilization of regulation resources through full competition,thereby transforming system security from"external planning"reliant on dispatch instructions into"endogenous security"driven by the profit motives of micro-entities.This mechanism will effectively activate dispersed flexibility resources society-wide and significantly lower the system marginal accommodation costs through market competition,providing an implementation path that is both institutionally feasible and technically operable to construct a new power market capable of endogenously and synergistically achieving security,economic efficiency,and green development.关键词
能源不可能三角/安全/可靠性/调节责任/电力互替品/电力市场Key words
energy trilemma/security/reliability/regulation responsibility/substitute power product/electricity market引用本文复制引用
何光宇..以调节责任促内生安全:新型电力市场范式探索[J].电力系统自动化,2026,50(9):3-12,10.基金项目
国家重点研发计划资助项目(2024YFE0110900). This work is supported by National Key R&D Program of China(No.2024YFE0110900). (2024YFE0110900)
