Numerical Study for the Design of a Thermal Energy Storage System with Multiple Tunnels Based on Phase Change Material: Case Study Mining in Chile (Thermal Storage in Off-Grid Industrial Applications)

Nuñez, Suleivys M.; Trujillo Preuss, Felipe E.; Masip Macia, Yunesky

Keywords: energy storage, storage efficiency, mining applications, Phase change material, numerical model finite volumes method

Abstract

This paper presents a numerical model for thermal energy storage systems’ design, development, and feasibility. The energy storage was composed of a tank that stores phase change material (AlSi12) and internal pipes with heat transfer fluid (Cerrolow 117), coupled to a power block to dispatch electrical energy on a small scale for off-grid industrial applications. Subsequently, the evolution of the temperature in charge/discharge cycles, temperature degradation, and storage efficiency was determined with the appropriate magnitudes and behavior through the resolution of a numerical model. In addition, for the proposed electric power generation plant for an off-grid pumping system in the mining industry of Chile, a numerical model was developed using the finite volumes method to simulate the thermocline performance. As a result, the temperature history reflects stable thermal behavior, low degradation, and high efficiency of approximately 92%, with a storage time increasing up to 13 [h] and 384.8 [kWh] capacity. Also, implementation was feasible on a small scale due to its compact, modular, and economically competitive characteristics in a concentrated solar power plant. Finally, the proposed design was proven to be an accurate and reliable alternative for small-scale off-grid mining applications.

Más información

Título de la Revista: APPLIED SCIENCES-BASEL
Volumen: 14
Número: 9
Editorial: MDPI Open Access Publishing
Fecha de publicación: 2024
Página de inicio: 3690
Página final: 3690-20
Idioma: Inglés
URL: https://doi.org/10.3390/app14093690
DOI:

10.3390/app14093690

Notas: ISI