PSI - Issue 64

Eun-Rim Baek et al. / Procedia Structural Integrity 64 (2024) 1117–1124 Author name / Structural Integrity Procedia 00 (2019) 000–000

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The authors (Baek et al. , 2022) have already demonstrated the effectiveness of TRC panels with embedded capillary tubes in retrofitting URM walls, obtaining promising results. Moreover, the thermal performance of the proposed retrofit method was assessed through preliminary in-situ experimentation on an actual residential building. The observations from those tests are discussed in Baek et al. (2022) and Bae et al. (2022). Acknowledgements The work presented in this paper was carried out in the framework of the Collaborative Research Arrangement No. 34064 between the European Commission, Joint Research Centre (JRC) and the Korea Construction Engineering Development, Collaboratory Management Institute (KOCED-CMI) within the International Collaborative R&D Programme Call (KAIA-2-2019), organized by the Korean Agency for Infrastructure Technology Advancement (KAIA). The Technology Promotion Research Programme also financially supported these experiments through the research grant 21CTAP-C152795-03, funded by the Ministry of Land, Infrastructure and Transport of the Korean Government. The data post-processing work was partially funded by the Joint Research Centre of the European Commission in the framework of the iRESIST+ research project. The authors dedicate this work to the late Hyoungsuk Choi, who significantly contributed to this research. References Bae, S., Oh, J., Kim, J., Baek, E., Nam, Y., 2022. Energy performance analysis of textile and capillary tube composite panel system by computational fluid dynamics and real-scale experiments. Energy and Buildings 258, 111825. Baek, E., Pohoryles, D., Kallioras, S., Bournas, D., Choi, H., Kim, T., 2022. Innovative seismic and energy retrofitting of wall envelopes using prefabricated textile-reinforced concrete panels with an embedded capillary tube system. Engineering Structures 265, 114453. 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