Litcius/Paper detail

Experimental evaluation of an innovative radial-flow high-temperature packed bed thermal energy storage

Silvia Trevisan, Wujun Wang, Rafael Guédez, Björn Laumert

2022Applied Energy54 citationsDOIOpen Access PDF

Abstract

High-temperature packed-bed thermal energy storage represents an economically viable large-scale energy storage solution for a future fossil-free energy scenario. The present work introduces first-of-a-kind experimental setup of a radial packed-bed TES, and its performance assessment based on experimental investigations. The storage performance is analyzed based on a set of dimensionless criteria and indicators. The laboratory-scale prototype has an energy capacity of 49.7 kWhth and working temperatures between 25 °C and 700 °C with a non-pressurized dry airflow. The influence of different working fluid mass flow rates and inlet temperatures during charge and discharge is assessed. The proposed storage design ensures limited pressure drop, lower than 1 mbar, and thermal losses, about 1.11 % during dwell after charging at 700 °C until a state of charge of 55.8 %. A maximum overall thermal efficiency of 71.8 % has been recorded and trade-offs between efficiency, thermal uniformity, and thermocline thickness are highlighted. This work testifies that reduced pressure drops are the key advantage of radial-flow packed-bed designs. Thermocline degradation is shown to be the main weak point of this thermal energy storage design.

Topics & Concepts

ThermoclinePacked bedThermal massPressure dropThermal energy storageEnergy storageMechanicsThermalDimensionless quantityWork (physics)Environmental scienceNuclear engineeringMaterials scienceThermodynamicsChemistryMechanical engineeringEngineeringPower (physics)PhysicsGeologyChromatographyOceanographyPhase Change Materials ResearchAdsorption and Cooling SystemsSolar Thermal and Photovoltaic Systems
Experimental evaluation of an innovative radial-flow high-temperature packed bed thermal energy storage | Litcius