Locational Marginal Pricing: A Fundamental Reconsideration

IF 3.3 Q3 ENERGY & FUELS

IEEE Open Access Journal of Power and Energy Pub Date : 2024-02-02 DOI:10.1109/OAJPE.2024.3361751

Leigh Tesfatsion

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Abstract

This study establishes that Locational Marginal Pricing (LMP) is conceptually problematic for grid-supported centrally-managed wholesale power markets transitioning to decarbonized grid operations with increasingly diverse participants, hence with increasingly uncertain and volatile net loads. LMP assigns a common per-unit price LMP(b,T) (

${\$}/$

MWh) to each next unit (MWh) of grid-delivered energy, conditional on delivery location b and delivery period T. However, this entails a serious many-to-one benefit/cost measurement error: namely, the valuation of this next unit by a market participant or system operator will typically depend strongly on the dynamic attributes of the path of power injections and/or withdrawals (MW) used to implement its delivery at b during T. One option is to muddle through, forcing market participants and system operators to express benefit/cost valuations for next units of grid-delivered energy in per-unit form without regard for the true benefits and costs of flexible power delivery. Another option, advocated in this study, is to explore conceptually-coherent nodal multi-interval pricing mechanisms permitting grids to function efficiently as flexibility-support insurance mechanisms, i.e., as mechanisms enabling just-in-time nodal power deliveries to meet just-in-time nodal power demands as well as system reliability requirements.

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定位边际定价：根本性的重新思考

本研究认为，对于过渡到去碳化电网运营的电网支持型中央管理电力批发市场而言，由于参与者日益多样化，因此净负荷的不确定性和波动性也越来越大，因此 "地点边际定价"（LMP）在概念上存在问题。LMP 以交付地点 b 和交付期 T 为条件，为电网交付的下一单位（MWh）电能分配一个通用的单位价格 LMP(b,T) ( ${\$}/$ MWh)。然而，这带来了一个严重的多对一收益/成本测量误差：即市场参与者或系统运营商对下一单位电能的估值通常在很大程度上取决于在 T 期间用于在 b 处实现电能交付的电力注入和/或撤回路径（MW）的动态属性。一种方案是蒙混过关，迫使市场参与者和系统运营商以单位形式表达下一单位电网输送电能的效益/成本估值，而不考虑灵活送电的真实效益和成本。本研究提倡的另一种选择是探索概念上一致的节点多间隔定价机制，使电网能够有效地发挥灵活支持保险机制的作用，也就是使及时节点电力输送机制能够满足及时节点电力需求以及系统可靠性要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Open Access Journal of Power and Energy Multiple-

CiteScore

7.80

自引率

5.30%

发文量

审稿时长

10 weeks