Skip to main content
U.S. flag

An official website of the United States government

Official websites use .gov
A .gov website belongs to an official government organization in the United States.

Secure .gov websites use HTTPS
A lock ( ) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.

Phase Change Materials in Building Technology

Bibliography

 

Ahmad, M., "Noveaux Composants Actifs pour la Gestion Energetique de L'Enveloppe Legere des Batiments," Ph.D. Thesis, Universite Joseph Fourier, Nov. 2004.

 

Ahmad, M., Bontemps, A., Sallee, H., and Quenard, D., "Experimental Investigation and Computer Simulation of Thermal Behaviour of Wallboards Containing a Phase Change Material," Energy and Buildings, 38, 357-366, 2006.

 

Ahmad, M., Bontemps, A., Sallee, H., and Quenard, D., "Thermal Testing and Numerical Simulation of a Prototype Cell Using Light Wallboards Coupling Vacuum Isolation Panels and Phase Change Materials," Energy and Buildings, 38, 673-681, 2006.

 

Baetens, R., Petter Jelle, B., and Gustavsen, A., "Phase Change Materials for Building Applications: A State-of-the-Art Review," Energy and Buildings, 42, 1361-1368, 2010.

 

Bentz, D.P., and Turpin, R., "Potential Applications of Phase Change Materials in Concrete Technology," Cement and Concrete Composites, 29 (7), 527-532, 2007.

 

Cabeza, L.F., Castellon, C., Bogues, M., Medrano, M., Leppers, R., and Zubillage, O., "Use of Microencapsulated PCM in Concrete Walls for Energy Savings," Energy and Buildings, 39, 113-119, 2007.

 

Castellon, C., Medrano, M., Roca, J., Nogues, M., Castell, A., and Cabeza, L.F., "Use of Microencapsulated Phase Change Materials in Building Applications," in Buildings X, ASHRAE, 2007.

 

Darkwa, J., "Development of a Composite Laminated Phase Change Material (PCM) for Energy Storage in Buildings," 5 pp.

 

Fischer, U.R., "Thermal Conductivity and Heat Capacity Measurements of Paraffin Embedded in a Porous Matrix," In: Thermal Conductivity 28/Thermal Expansion 16; 2006. p. 517-523.

 

Hawes, D.W., and Feldman D., "Absorption of Phase Change Materials in Concrete," Solar Energy Materials and Solar Cells, 27 (2), 91-101, 1992.

 

Hawes, D.W., Banu D., and Feldman D. "The Stability of Phase Change Materials in Concrete," Solar Energy Materials and Solar Cells, 27 (2), 103-118, 1992.

 

Huang, M.J., Eames, P.C., and Norton, B., "Thermal Regulation of Building-Integrated Photovoltaics Using Phase Change Materials," International Journal of Heat and Mass Transfer, 47, 2715-2733, 2004.

 

Hunger, M., Entrop, A.G., Mandilaras, I., Brouwers, H.J.H., Founti, M., "The Behavior of Self-Compacting Concrete Containing Micro-Encapsulated Phase Change Materials," Cement and Concrete Composites, 31, 731-743, 2009.

 

Kondo, T., Iwamoto, S., and Ibamoto, T., "Research on Thermal Storage Using Rock Wool PCM Ceiling Board," 6 pp.

 

Kuznik, F., David, D., Johannes, K., and Roux, J.-J., "A Review of Phase Change Materials Integrated in Building Walls," Renewable and Sustainable Energy Reviews, 15, 379-391, 2011.

 

Lee, T., "Latent and Sensible Heat Storage in Concrete Blocks," Master's Thesis, Concordia University, Montreal, 1998.

 

Mihashi H., Nishiyama, N., Kobayashi, T., and Hanada, M., "Development of a Smart Material to Mitigate Thermal Stress in Early Age Concrete," In: Control of Cracking in Early Age Concrete; 2002. p. 385–92.

 

Miyamota, S., and Takeuchi, M., "Snow-Melting and De-Icing System on Road Using Natural Thermal Energy Sources," IV116, 8 pp.

 

Niesing, B., "Storing Heat with Wax," Fraunhofer Magazine 1, 36-37, 2004.

 

Pasupathy, A., Velray, R., and Seeniraj, R.B., "Phase Change Material-Based Building Architecture for Thermal Management in Residential and Commercial Establishments," Renewable and Sustainable Energy Reviews, 12, 39-64, 2008.

 

Sakulich, A.R., and Bentz, D.P., "Increasing the Service Life of Bridge Decks by Incorporating Phase-Change Materials to Reduce Freeze-Thaw Cycles," ASCE Journal of Materials in Civil Engineering, 24 (8), 1034-1042, 2012.

 

Sakulich, A.R., and Bentz, D.P., "Incorporation of Phase Change Materials in Cementitious Systems via Fine Lightweight Aggregates," Construction and Building Materials, 35, 483-490, 2012.

 

Sharma, S.D., Kitano, H., and Sagara, K., "Phase Change Materials for Low Temperature Solar Thermal Applications," Res Rep Fac Eng Mie Univ, 29, 31-64, 2004.

 

Stoll, F., Drake, M.I., and Salyer, I.O., "Use of Phase Change Materials to Prevent Overnight Freezing of Bridge Decks," IDEA Project Final Report, NCHRP-94-ID022, October, 1996, 23 pp.

 

Tyagi, V.V., Kaushik, S.C., Tyagi, S.K., and Akiyama, T., "Development of Phase Change Materials Based Microencapsulated Technology for Buildings: A Review," Renewable and Sustainable Energy Reviews, 15, 1373-1391, 2011.

 

Zhang, D., Li, Z., Zhou, J., and Wu, K., "Development of Thermal Energy Storage Concrete," Cement and Concrete Research, 34, 927-934, 2004.

Contacts

Created June 21, 2017, Updated November 15, 2019