DOE PAGES title logo U.S. Department of Energy
Office of Scientific and Technical Information

Title: A hybrid numerical and machine learning framework for evaluating the performance of a 780 cm2 aqueous organic redox flow battery

Journal Article · · Journal of Power Sources

Aqueous organic redox flow battery (AORFB) is a promising cost-competitive technology for large-scale energy storage. Among existing work, the dihydroxyphenazine (DHP)-based AORFB has demonstrated high energy density and low capacity degradation in 10 cm2 cells during lab tests. However, its commercial-scale performance in more complex environments remains unknown, posing a barrier for commercialization. To address this gap, this work presents a comprehensive performance evaluation of a 780 cm2 DHP-based AORFB by combining physics-based numerical model, machine learning (ML)-based surrogate models, and ML-derived sensitivity quantification. Specifically, we first select 12 key battery parameters that include 10 physicochemical quantities and 2 operation quantities, then select 6 performance metrics that include energy efficiency (EE), discharging capacity, charging energy, and power losses due to concentration, activation, and ohmic over-potentials. With such selection, 12800 combinations of the 12 parameters are subsequently generated using the Latin Hypercube Sampling method. These combinations, together with 38 pre-defined State of Charge, are then integrated to a validated AORFB model developed in COMSOL to compute the performance metrics. With both input parameters and performance metrics, 60 deep neural network (DNN) surrogate models are then trained to approximate the relationship between the 10 physicochemical quantities and 6 performance metrics at each flow rate and current density. Sensitivity scores are then calculated based on the DNN models. Two additional sensitivity analysis tools, i.e., MARS, and SHAP, are also used to cross-validate the sensitivity scores from the DNN. The results demonstrate that 1) the standard potential ranks the first in controlling EE and charging energy, 2) the membrane conductivity is most critical for power loss and EE, and 3) specific area and reaction rate control activation power loss.

Research Organization:
Pacific Northwest National Laboratory (PNNL), Richland, WA (United States)
Sponsoring Organization:
USDOE Office of Electricity (OE)
Grant/Contract Number:
AC05-76RL01830
OSTI ID:
2526234
Report Number(s):
PNNL-SA--203778
Journal Information:
Journal of Power Sources, Journal Name: Journal of Power Sources Journal Issue: _ Vol. 635; ISSN 0378-7753
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (38)

An Extremely Stable, Highly Soluble Monosubstituted Anthraquinone for Aqueous Redox Flow Batteries journal January 2023
A Phosphonate‐Functionalized Quinone Redox Flow Battery at Near‐Neutral pH with Record Capacity Retention Rate journal January 2019
Biomimetic Amino Acid Functionalized Phenazine Flow Batteries with Long Lifetime at Near‐Neutral pH journal January 2021
Highly Stable, Low Redox Potential Quinone for Aqueous Flow Batteries** journal February 2022
A Systematic Study on the Redox Potentials of Phenazine‐Derivatives in Aqueous Media: A Combined Computational and Experimental Work journal March 2023
Redox flow batteries a review journal September 2011
Application of explainable artificial intelligence for healthcare: A systematic review of the last decade (2011–2022) journal November 2022
N-alkyl-carboxylate-functionalized anthraquinone for long-cycling aqueous redox flow batteries journal April 2021
Alkaline Quinone Flow Battery with Long Lifetime at pH 12 journal September 2018
Ultrastable aqueous phenazine flow batteries with high capacity operated at elevated temperatures journal September 2021
Performance of a low cost interdigitated flow design on a 1 kW class all vanadium mixed acid redox flow battery journal February 2016
Recent developments in organic redox flow batteries: A critical review journal August 2017
A highly reversible anthraquinone-based anolyte for alkaline aqueous redox flow batteries journal May 2018
Analytical modeling for redox flow battery design journal January 2021
A two-dimensional analytical unit cell model for redox flow battery evaluation and optimization journal September 2021
A new hydroxyanthraquinone derivative with a low and reversible capacity fading process as negolyte in alkaline aqueous redox flow batteries journal August 2022
A three-dimensional pore-scale model for redox flow battery electrode design analysis journal February 2023
A hybrid analytical and numerical model for cross-over and performance decay in a unit cell vanadium redox flow battery journal September 2023
A review of vanadium electrolytes for vanadium redox flow batteries journal March 2017
Quest for Organic Active Materials for Redox Flow Batteries: 2,3-Diaza-anthraquinones and Their Electrochemical Properties journal January 2018
110th Anniversary : Unleashing the Full Potential of Quinones for High Performance Aqueous Organic Flow Battery journal February 2019
Anthraquinone Flow Battery Reactants with Nonhydrolyzable Water-Solubilizing Chains Introduced via a Generic Cross-Coupling Method journal December 2021
High Energy Density Aqueous Flow Battery Utilizing Extremely Stable, Branching-Induced High-Solubility Anthraquinone near Neutral pH journal December 2022
Designing Better Flow Batteries: An Overview on Fifty Years’ Research journal June 2024
High-Performance Alkaline Organic Redox Flow Batteries Based on 2-Hydroxy-3-carboxy-1,4-naphthoquinone journal September 2018
A Water-Miscible Quinone Flow Battery with High Volumetric Capacity and Energy Density journal May 2019
Molecular Design of Fused-Ring Phenazine Derivatives for Long-Cycling Alkaline Redox Flow Batteries journal January 2020
A biomimetic high-capacity phenazine-based anolyte for aqueous organic redox flow batteries journal June 2018
Organic Redox Species in Aqueous Flow Batteries: Redox Potentials, Chemical Stability and Solubility journal December 2016
Graphical Gaussian process regression model for aqueous solvation free energy prediction of organic molecules in redox flow batteries journal January 2021
Decomposition pathways and mitigation strategies for highly-stable hydroxyphenazine flow battery anolytes journal January 2021
A high-capacity 1,2:3,4-dibenzophenazine anode integrated into carbon felt for an aqueous organic flow battery in alkaline media journal January 2022
Alkaline quinone flow battery journal September 2015
Reversible ketone hydrogenation and dehydrogenation for aqueous organic redox flow batteries journal May 2021
Review—Highlights of UNSW All-Vanadium Redox Battery Development: 1983 to Present journal July 2022
Characterization of Electrochemical Behavior for Aqueous Organic Redox Flow Batteries journal December 2022
In Situ Characterization of Kinetics, Mass Transfer, and Active Electrode Surface Area for Vanadium Redox Flow Batteries journal March 2023
Stack Developments in a kW Class All Vanadium Mixed Acid Redox Flow Battery at the Pacific Northwest National Laboratory journal November 2015