Analysis of the temperature distribution in an insulated reinforced-concrete building envelope using FBG sensors

Ahola, S. & Lahdensivu, J. (2017) Long term monitoring of repaired external wall assembly. Proceedings of the 11th Nordic Symposium on Building Physics (NSB2017), Trondheim, Norway, 11-14 June 2017. Search in Google Scholar

Antonik-Popiołek, P. (2021) Influence of solar radiation to the temperature inside a three-layer partition in winter season. Acta Sci. Pol. Architectura, 20(2), 75-82. DOI: 10.22630/ASPA.2021.20.2.16. Search in Google Scholar

Bao, X.Y. & Liang, C. (2012) Recent progress in distributed fiber optic sensors. Sensors, 12, 8601-8639. Search in Google Scholar

Bhaskar, Ch., Pal, S. & Kumar Pattnaik P. (2021) Recent advancements in fiber Bragg gratings based temperature and strain measurement. Results in Optics, 5(5), 100130. Search in Google Scholar

Juraszek, J. (2022) Fiber optic system based on FBG sensors for monitoring modern structures. Archives of Civil Engineering, 68, 2, 445-460. Search in Google Scholar

Juraszek, J. & Antonik-Popiołek, P. (2021) Światłowodowe czujniki FBG do monitorowania temperatury przegród budowlanych [FBG sensors for the monitoring of the temperature of building partitions]. Materials, 14(5), 1207. Search in Google Scholar

Juraszek, J. (2020) Fiber Bragg sensors on strain analysis of power transmission lines. Materials, 13, 1559. Search in Google Scholar

Juraszek, J. (2018) Hoisting machine brake linkage strain. Arch. Min. Sci., 63, 583-597. Search in Google Scholar

Kersey, A.D. (1996) Review of recent developments in fiber optic sensor technology. Opt. Fiber Technol., 2, 291-317. Search in Google Scholar

Liao, W., Zhuang, Y., Zeng, C., Deng, W., Huang, J. & Ma, H. (2020) Fiber optic sensors enabled monitoring of thermal curling of concrete pavement slab: Temperature, strain and inclination. Measurement, 165, 108203. Search in Google Scholar

Loizos, A., Plati, C. & Papavasiliou, V. (2013) Fiber optic sensors for assessing strains in cold in-place recycled pavements. Int. J. Pavement Eng., 14, 125-133. Search in Google Scholar

Marino, B.M., Muñoz, N. & Thomas, L.P. (2018) Calculation of the external surface temperature of a multi-layer wall considering solar radiation effects. Energy Build., 174, 452-463. Search in Google Scholar

Minardo, A., Bernini, R. & Zeni, L. (2014) Distributed temperature sensing in polymer optical fiber by BOFDA. IEEE Photonics Technol. Lett., 26, 387-390. Search in Google Scholar

Othonos, A. & Kyriacos, K. (1999) Fiber Bragg Gratings: Fundamentals and Applications in Telecommunications and Sensing. Norwood, Artech House, ISBN 089006-344-3. Search in Google Scholar

PN-EN ISO 12524:2003 Building materials and products. Hygrothermal properties. Tabulated design values. Search in Google Scholar

PN-EN ISO 6946:2008 Building components and building elements. Thermal resistance and thermal transmittance. Calculation method. Search in Google Scholar

Wang, J., Tang, J. & Chang, H. (2006) Fiber Bragg grating sensors for use in pavement structural strain--temperature monitoring. Proceedings of the SPIE 6174, Smart Structures and Materials 2006: Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems, San Diego, CA, USA, 27-28 February 2006. Search in Google Scholar

Weng, X., Zhu, H.-H., Chen, J., Liang, D., Shi, B. & Zhang, C.-C. (2014) Experimental investigation of pavement behavior after embankment widening using a fiber optic sensor network. Struct. Health Monit. Int. J., 14, 46-56. Search in Google Scholar