Degradation-infused energy portfolio allocation framework: risk-averse fair storage participation

Degradation-infused energy portfolio allocation framework: risk-averse fair storage participation

This work proposes a novel degradation-infused energy portfolio allocation (DI-EPA) framework for enabling the participation of battery energy storage systems in multi-service electricity markets. The proposed framework attempts to address the challenge of including the rainflow algorithm for cycle...

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Bibliographic Details
Main Authors: Pareek, Parikshit, Sampath, L. P. Mohasha Isuru, Singh, Anshuman, Goel, Lalit, Gooi, Hoay Beng, Nguyen, Hung Dinh
Other Authors: School of Electrical and Electronic Engineering
Format: Article
Language:English
Published: 2025
Subjects:
Engineering
Degradation-aware dispatch
Energy portfolio allocation
Online Access:https://hdl.handle.net/10356/182334
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Institution: Nanyang Technological University
Language: English
Description
Summary:This work proposes a novel degradation-infused energy portfolio allocation (DI-EPA) framework for enabling the participation of battery energy storage systems in multi-service electricity markets. The proposed framework attempts to address the challenge of including the rainflow algorithm for cycle counting by directly developing a closed-form of marginal degradation as a function of dispatch decisions. Further, this closed-form degradation profile is embedded into an energy portfolio allocation (EPA) problem designed for making the optimal dispatch decisions for all the batteries together, in a shared economy manner. We term the entity taking these decisions as ‘facilitator’ which works as a link between storage units and market operators. The proposed EPA formulation is quipped with a conditional-value-at-risk (CVaR)-based mechanism to bring risk-averseness against uncertainty in market prices. The proposed DI-EPA problem introduces fairness by dividing the profits into various units using the idea of marginal contribution. Simulation results regarding the accuracy of the closed-form of degradation, effectiveness of CVaR in handling uncertainty within the EPA problem, and fairness in the context of degradation awareness are discussed. Numerical results indicate that the DI-EPA framework improves the net profit of the storage units by considering the effect of degradation in optimal market participation.

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