References
- [1] Liu, M., Saman, W., Bruno, F. (2012). Review on storage materials and thermal performance enhancement techniques for high temperature phase change thermal storage systems, Renewable and Sustenable EnergyReviews, Vol. 16, pp. 2118-2132
- [2] Dincer I., Rosen, M.A., (2002). Thermal energy storage: storage and applications, John Wiley &Sons, Vol. 57-59
- [3] Rathod, M.K., Kanzaria, H.V. (2011). A methodological concept for phase change material selection based on multimple criteria decision analysis with and without fuzzy environment, Material and Design, Vol. 32, pp. 3578-3585
- [4] Rodriguez-Ubinas, E., Ruiz-Valero, L., Vega, S., Neila, J. (2012). Applications of phase change material in highly energy-efficient houses, Energy and Buildings, Vol. 50, pp. 49-62
- [5] Sharma, A., Tyagi, V.V., Chen, C.R., Buddhi, D. (2009). Review on thermal energy storage with phase change materials and applications, Renewable and Sustainable Energy Reviews, Vol. 13, pp. 318-345
- [6] Abhat, A., (1983). Low temperature latent heat thermal energy storage: heat storage materials, Solar Energy, Vol. 30, No. 4, pp. 313-332
- [7] Saaty, T.L. (2008). Decision making with the analytic hierarchy process, International journal services sciences, vol. 1, no. 1, pp. 83-98
- [8] Datta, A., Ray, A., Bhattacharya, G., Saha, H. (2011). Green energy sources (GES) selection based on multi-criteria decision analysis (MCDA), International Journal of Energy Sector Management, Vol. 5, No. 2, pp. 271-286
- [9] Socaciu, L.G. (2011). Studii si cercetari privind utilizarea teoriei fuzzy in cadrul procesului de dezvoltare a produselor pe baza cerintelor clientului, Teza de doctorat, Universitatea Tehnica din Cluj-Napoca.
- [10] Ray,A., Sarkar, B., Sanyal, S. (2010). The TOC-based algorithm for solving multiple constraint resources, IEEETransactions on Engineering Management, Vol. 57, No. 2, pp.301-310
- [11] ***Climsel C24 (accessed may 2013), available at: http://www.climator.com/files/products/climsel-c24.pdf
- [12]Koekenbier, S.F. (2011). PCM energy storage during defective thermal cycling, Design of the “Capacity Cube”and modelling of PCM pouches to trace the impact of incomplete thermal cycling, Thesis MSc-ME, Delft University of Technology.
- [13] ***PlusIce, (accessed may 2013), available at: http://www.pcmproducts.net/files/PlusICE%20Range-2013.pdf
- [14]***Rubitherm, (accessed may 2013), available at: http://www.rubitherm.de/english/index.htm
- [15]Evers, A. (1989). Development of quantitative measure of the functionality of frame walls enhanced with phasechange materials using a dynamic wall simulator, Thesis MSc in Arhitectural Engineering, Wichita State University, Wichita, Kansas
- [16]Rouault, F., Bruneau, D., Sebastian, P., Ango, S.E., Lopez, J. (2012). Numerical modelling and experimental study of a box-section tube bunde thermal energy storage for free-cooling of buildings, The 12th International Conference on Energy Storage, Innstock, available at: http://hal.archives-ouvertes.fr/docs/00/80/50/28/PDF/Paper_Innostock_2012_-_INNO-SP-59.pdf, accessed may 2013
- [17] ***TEAP, (accessed may 2013), available at: http://www.teappcm.com/products.htm