Dynamic Locational Marginal Emissions via Implicit Differentiation

Abstract: Locational marginal emissions rates (LMEs) estimate the rate of change in emissions due to a small change in demand in a transmission network, and are an important metric for assessing the impact of various energy policies or interventions. In this work, we develop a new method for computing the LMEs of an electricity system via implicit differentiation. The method is model agnostic; it can compute LMEs for any convex optimization-based dispatch model, including some of the complex dispatch models employed by … Show more

“…Additionally, [21] studies the impact of temporal characteristics and system frequency limits of responsive load models on integrating demand response resources into power system scheduling. Lastly, [22] proposes a method to eliminate redundant constraints in the unit commitment model.…”

The Significance of Time Constraints in Unit Commitment Problems

“…Additionally, [21] studies the impact of temporal characteristics and system frequency limits of responsive load models on integrating demand response resources into power system scheduling. Lastly, [22] proposes a method to eliminate redundant constraints in the unit commitment model.…”

The Significance of Time Constraints in Unit Commitment Problems

A comprehensive consumption-based carbon accounting framework for power system towards low-carbon transition

Fast Grid Emissions Sensitivities using Parallel Decentralized Implicit Differentiation