Photothermal Collector Design for Redox Flow Battery System

Redox flow battery (RFB) allows simultaneously storing of electrical energy into chemicals, which can be readily utilized to generate electricity via reversible reactions [1]. However, the plain fact is most studies overlook still-untapped potentials arising from the electrolyte behaviour change under the heat or temperature variation. In this context, thermally regenerative electrochemical cycle (TREC) [2,3] has recently been proposed to harness the waste thermal energy by the exposure to the sunlight. This project aims to design a photothermal collector with the continuous electrolyte flow for the TREC-based redox flow battery. The project is expected to deliver a set of 3D designs for photothermal collector with heat transfer analysis.

Relevant references
[1] Bae, D.; Faasse, G. M.; Smith, W. A. Hidden Figures of Photo-Charging: A Thermo-Electrochemical Approach for Solar-Rechargeable Redox Flow Cell System. Sustain. Energy Fuels 2020, 4, 2650–2655.
[2] Zhang, H.; Zhang, F.; Yu, J.; Zhou, M.; Luo, W.; Lee, Y. M.; Si, M.; Wang, Q. Redox Targeting-Based Thermally Regenerative Electrochemical Cycle Flow Cell for Enhanced Low-Grade Heat Harnessing. Adv. Mater. 2020, 2006234.
[3] Facchinetti, I.; Ruffo, R.; La Mantia, F.; Brogioli, D. Thermally Regenerable Redox Flow Battery for Exploiting Low-Temperature Heat Sources. Cell Reports Phys. Sci. 2020, 1 (5), 100056.

Other Comments: 

We are looking for candidates talented in modelling tool (e.g., COMSOL or any relevant S/W, including Matlab, Ansys, and etc.). Background or strong interest in fluid cell is also preferred.

Supervisor name: 
Dowon Bae, Tadhg O'Donovan
Supervisor and Deputy email addresses:
Project location: 
Staff comments: 
Dr Dowon Bae - Supervisor; Dr Tadhg O'Donovan - Co-supervisor