Author Page for Marcos Vera

Exploring Temperature Effects in All-Vanadium Redox Flow Batteries Through a Validated Unit-Cell Model

Number of pages: 26 Posted: 24 Feb 2023

Vanesa Muñoz-Perales, Santiago E. Ibañez, Enrique García-Quismondo, Sabrina Berling and Marcos Vera

affiliation not provided to SSRN, IMDEA Energy Institute - Electrochemical Processes Unit, affiliation not provided to SSRN, affiliation not provided to SSRN and Charles III University of Madrid - Department of Thermal and Fluids Engineering

Downloads 87 (759,537)

Abstract:

2.

Measuring Density and Viscosity of Vanadium Electrolytes: An Exhaustive Database with Multivariate Polynomial Fits

Number of pages: 22 Posted: 20 Mar 2024

Pablo Angel Prieto-Díaz, Ange A. Maurice and Marcos Vera

Universidad Carlos III de Madrid, Universidad Carlos III de Madrid and Charles III University of Madrid - Department of Thermal and Fluids Engineering

Downloads 58 (980,173)

Abstract:

3.

Experiment-Supported Survey of Inefficient Electrolyte Mixing and Capacity Loss in Vanadium Flow Battery Tanks

Number of pages: 19 Posted: 12 Mar 2024

Pablo Angel Prieto-Díaz, Andrea Trovò, Giacomo Marini, Matteo Rugna, Marcos Vera and Massimo Guarnieri

Universidad Carlos III de Madrid, University of Padua, University of Padua, University of Padua, Charles III University of Madrid - Department of Thermal and Fluids Engineering and University of Padua

Downloads 57 (989,921)

Abstract:

4.

Second-Law Analysis of Micro-Fluidic Counter-Flow Parallel Plate Heat Exchangers: Maximum Effectiveness and its Relation to Minimal Wall Entropy Production

Number of pages: 34 Posted: 29 Nov 2021

Santiago E. Ibañez, Alberto E. Quintero and Marcos Vera

IMDEA Energy Institute - Electrochemical Processes Unit, Micro Electrochemical Technologies and Charles III University of Madrid - Department of Thermal and Fluids Engineering

Downloads 49 (1,074,648)

Abstract:

5.

Fluid Dynamics of Mixing in the Tanks of Small Vanadium Redox Flow Batteries: Insights from Order-of-Magnitude Estimates and Transient Two-Dimensional Simulations

Number of pages: 35 Posted: 05 Jun 2023

Marcos Vera

Charles III University of Madrid - Department of Thermal and Fluids Engineering

Downloads 34 (1,263,436)

Abstract:

6.

Deflection and Control of the Mixing Region in Membraneless Vanadium Micro Redox Flow Batteries: Modelling and Experimental Validation

Number of pages: 28 Posted: 28 May 2024

Miguel de las Heras, Alberto E. Quintero, Ange A. Maurice, Marcos Vera and Santiago E. Ibañez

affiliation not provided to SSRN, Micro Electrochemical Technologies, Universidad Carlos III de Madrid, Charles III University of Madrid - Department of Thermal and Fluids Engineering and IMDEA Energy Institute - Electrochemical Processes Unit

Downloads 23 (1,411,822)

Abstract:

7.

Electrolyte Mixing in Vanadium Flow Battery Tanks: Effects on Capacity Utilization

Number of pages: 30 Posted: 13 Aug 2025

Pablo Angel Prieto-Díaz, Ange A. Maurice and Marcos Vera

Universidad Carlos III de Madrid, Universidad Carlos III de Madrid and Charles III University of Madrid - Department of Thermal and Fluids Engineering

Downloads 12 (1,526,714)

Marcos Vera

Charles III University of Madrid - Department of Thermal and Fluids Engineering

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Scholarly Papers (7)

Exploring Temperature Effects in All-Vanadium Redox Flow Batteries Through a Validated Unit-Cell Model

Abstract:

Measuring Density and Viscosity of Vanadium Electrolytes: An Exhaustive Database with Multivariate Polynomial Fits

Abstract:

Experiment-Supported Survey of Inefficient Electrolyte Mixing and Capacity Loss in Vanadium Flow Battery Tanks

Abstract:

Second-Law Analysis of Micro-Fluidic Counter-Flow Parallel Plate Heat Exchangers: Maximum Effectiveness and its Relation to Minimal Wall Entropy Production

Abstract:

Fluid Dynamics of Mixing in the Tanks of Small Vanadium Redox Flow Batteries: Insights from Order-of-Magnitude Estimates and Transient Two-Dimensional Simulations

Abstract:

Deflection and Control of the Mixing Region in Membraneless Vanadium Micro Redox Flow Batteries: Modelling and Experimental Validation

Abstract:

Electrolyte Mixing in Vanadium Flow Battery Tanks: Effects on Capacity Utilization

Abstract: