http://orcid.org/0000-0003-1606-8344
References
- Al-Saadi, S.N. 2014. Modeling and simulation of PCM-enhanced façade systems. Ph.D. Thesis, Department of Civil, Environmental, and Architectural Engineering, University of Colorado, Boulder, Colorado, USA.
- Al-Saadi, S.N., and Z.J. Zhai. 2014. TRNSYS Type 285 phase change materials embedded in wall system. Report, Department of Civil, Environmental, and Architectural Engineering, University of Colorado, Boulder, Colorado, USA.
- Barbour, J.P, and D.C. Hittle. 2005. Modeling Phase Change Materials with Conduction Transfer Functions for Passive Solar Applications. Journal of Solar Energy Engineering 128(1):58–68.
- Bergman, T.L., A.S. Lavine, F.P. Incropera, and D.P. Dewitt. 2011. Fundamentals of Heat and Mass Transfer. Hoboken, NJ: John Wiley & Sons.
- Bony, J., and S. Citherlet. 2007. Numerical model and experimental validation of heat storage with phase change materials. Energy and Buildings 39:1065–72.
- Delcroix, B. 2015. Modeling of thermal mass energy storage in buildings with phase change materials. Ph.D. Thesis, Department of Mechanical Engineering, École Polytechnique de Montréal, Montréal, Quebec, Canada.
- Delcroix, B., M. Kummert, and A. Daoud. 2015a. Thermal behavior mapping of a phase change material between the heating and cooling enthalpy-temperature curves. Energy Procedia 78:225–30.
- Delcroix, B., M. Kummert, A. Daoud, and J. Bouchard. 2015b. Influence of experimental conditions on measured thermal properties used to model phase change materials. Building Simulation: An International Journal 8(6):637–50.
- Dentel, A., and W. Stephan. 2010. Thermal comfort in rooms with active PCM constructions. In Proceedings of the 8th International Conference on System Simulation in Buildings, Liège, Belgium pp. 1–16.
- Dentel, A., and W. Stephan. 2013. TRNSYS TYPE 399—Phase change materials in passive and active wall constructions. Report, Institute for Energy and Building, Georg Simon Ohm University of Applied Sciences, Nürnberg, Germany.
- Entropy Solutions Inc. 2011. PureTemp: The world's only 100% renewable phase change material. http://www.puretemp.com/.
- Farid, M.M., A.M. Khudhair, S.A.K. Razack, and S. Al-Hallaj. 2004. A review on phase change energy storage: Materials and applications. Energy Conversion and Management 45(9–10):1597–615.
- Goodrich, L.E. 1978. Efficient numerical technique for one-dimensional thermal problems with phase-change. International Journal of Heat and Mass Transfer 21(5):615–621.
- Jost, R. (2012). Developing a run-time coupling between ESP-r and TRNSYS. Master's thesis, Department of Mechanical Engineering, École Polytechnique de Montréal, Montréal, QC, Canada.
- Kuznik, F., J. Virgone, and K. Johannes. 2010. Development and validation of a new TRNSYS type for the simulation of external building walls containing PCM. Energy and Buildings 42:1004–9.
- Lawrence Berkeley National Laboratory. 2011. THERM 6.3 / WINDOW 6.3: NFRC Simulation Manual. Berkeley, CA: Lawrence Berkeley National Laboratory.
- Mitalas, G.P., and J.G. Arseneault. 1972. Fortran IV program to calculate z-transfer functions for the calculation of transient heat transfer through walls and roofs. Division of Building Research, National Research Council Canada. http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?action=shwart&index=an&req=5752842.
- Pedersen, C.O. 2007. Advanced zone simulation in EnergyPlus: Incorporation of variable properties and phase change material (PCM) capability. In Proceedings of Building Simulation 2007: 10th Conference of the International Building Performance Simulation Association, Beijing, China, September 3–6, 1341–5.
- Phase Change Energy Solutions. 2008. BioPCM longevity cycle testing. http://www.phasechange.com/index.php/en/contractor-library.
- Phase Change Energy Solutions. 2014. Manufacturing innovative thermal storage technologies for smart and sustainable buildings. http://www.phasechange.com/index.php.
- Sharma, A., V.V. Tyagi, C.R. Chen, and D. Buddhi. 2009. Review on thermal energy storage with phase change materials and applications. Renewable and Sustainable Energy Reviews 13(2):318–45.
- Stephenson, D.G., and G.P. Mitalas. 1971. Calculation of heat conduction transfer functions for multi-layer slabs. ASHRAE Transactions 77(2):117–26.
- Tabares-Velasco, P.C., C. Christensen, and M. Bianchi. 2012. Verification and validation of EnergyPlus phase change material model for opaque wall assemblies. Building and Environment 54:186–96.
- Thermal Energy Systems Specialists. 2012. TESSLibs3—Type 1270: Phase change material (PCM) wall layer for Type 56. Report, Madison, Wisconsin, USA.
- TRANSSOLAR Energietechnik GmbH. 2012. TRNSYS 17—Multizone building modeling with Type 56 and TRNBuild. Report, Stuttgart, Germany.
- Voller, V.R., and M. Cross. 1981. Accurate solutions of moving boundary problems using the enthalpy method. International Journal of Heat and Mass Transfer 24(3):545–56.
- Yao, M., and A. Chait. 1993. An alternative formulation of the apparent heat capacity method for phase change problems. Numerical Heat Transfer, Part B, Fundamentals 24(3):279–300.