ComBioTES is a collaborative research initiative dedicated to advancing scientific knowledge through joint efforts. As part of this cooperation, partners actively contribute to the dissemination of research findings via publications in peer-reviewed scientific journals and presentations at international conferences.
All participating institutions have committed to submitting peer-reviewed articles to institutional or subject-specific repositories. They also strive to ensure open access to these publications—either immediately upon release or no later than six months after publication.
This section provides direct links to the repositories hosting the peer-reviewed publications resulting from the ComBioTES project.
Demand response with active phase change material based thermal energy storage in buildings (A.C. Nunna, Y. Zong, L. Georges, S. You, Demand response with active phase change material based thermal energy storage in buildings, Energy Rep. 9(Suppl. 3) (2023) 227–235. https://doi.org/10.1016/j.egyr.2023.02.123)
Developing the next generation of renewable energy technologies: an overview of low-TRL EU-funded research projects (L.M. Pérez Caballero, F. Neira D’Angelo, R. Tschentscher, et al., Developing the next generation of renewable energy technologies: an overview of low-TRL EU-funded research projects, Open Res. Eur. 3 (2023) 8. https://doi.org/10.12688/openreseurope.15647.1)
Experimental investigation of the solar latent heat thermal energy storage system integrated with salt hydrate phase-change materials (X. Jin, S. You, Experimental investigation of the solar latent heat thermal energy storage system integrated with salt hydrate phase-change materials, Energy Rep. 9(Suppl. 11) (2023) 502–511. https://doi.org/10.1016/j.egyr.2023.09.123)
Techno-economic assessment of the solar-assisted heat pump latent heat thermal energy storage system for water heating (X. Jin, S. You, G. Huang, A.C.K. Lai, Techno-economic assessment of the solar-assisted heat pump latent heat thermal energy storage system for water heating, Energy Build. 301 (2023) 113657. https://doi.org/10.1016/j.enbuild.2023.113657)
A vertical multi-tube latent thermal energy system with tube inserts and radial fins: Experimental and CFD modeling study ( J. Wu, J. Dragsted, S. Furbo, A. Bruch, Q.T. Pham, P. Wang, W. Kong, C. Zhan, Y. Xu, X. Li, J. Fan, A vertical multi-tube latent thermal energy system with tube inserts and radial fins: Experimental and CFD modeling study, J. Energy Storage 122 (2025) 116652. https://doi.org/10.1016/j.est.2025.116652)
Multi-scale experimental characterization and management of supercooling of isosorbide, a phase-change material for thermal energy storage (A. Bruch, F. Bentivoglio, B. Boit, A. Sy, Multi-scale experimental characterization and management of supercooling of isosorbide, a phase-change material for thermal energy storage, J. Energy Storage 134 (2025) 118032. https://doi.org/10.1016/j.est.2025.118032)