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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Modelowanie akumulacji ciepła utajonego w komponentach modyfikowanych MFZ
Języki publikacji
Abstrakty
Due to latent heat storage potential, phase change materials can be implemented in building materials to improve energy performance and thermal comfort. Nevertheless, the phase change effect is quite a complex phenomenon for numerical modelling and different methods can be used to estimate the results of latent heat storage. This paper presents a brief overview of the existing numerical methods and a short description of two most frequently used ones. Authors also investigated the capabilities of phase change modelling by three simulation tools. This work is a part of a wider research project which aims to find optimal solution of façade construction with the implementation of PCM. The choice of a proper numerical method was considered the first step to achieve this goal.
W artykule przedstawiono skrócony przegląd metod modelowania numerycznego zjawisk przemiany fazowej oraz możliwości oceny akumulacji ciepła utajonego w komponentach modyfikowanych materiałami fazowo zmiennymi (MFZ). Scharakteryzowano również metody obliczeniowe trzech programów symulacyjnych umożliwiających modelowanie MFZ. W wyniku analizy oceniono zasadność wykorzystania poszczególnych metod do realizacji szerszego projektu mającego na celu znalezienie optymalnego rozwiązania fasady.
Czasopismo
Rocznik
Tom
Strony
161--167
Opis fizyczny
Bibliogr. 14 poz., wz., wykr.
Twórcy
autor
- Department of Environmental Engineering, Faculty of Process and Environmental Engineering, Lodz University of Technology
autor
- Department of Environmental Engineering, Faculty of Process and Environmental Engineering, Lodz University of Technology
Bibliografia
- [1] Zalba B., Marin J.M., Cabeza L.F., Mehling H., Review on thermal energy storage with phase change: materials, heat transfer analysis and application, Applied Thermal Engineering, 23, 2003, 251-283.
- [2] Idelson S.R., Stori M.A., Crivelli L.A., Numerical methods in phase-change problems, Archives of Computational Methods in Engineering, 1994, 49-74.
- [3] Verma P., Varun, Singal S.K., Review of mathematical modelling on latent heat thermal energy storage systems using phase-change material, Renewable & Sustainable Energy Reviews, 12, 2008, 999-1031.
- [4] Dutil Y., Rousse D.R., Salah N.B., Lassue S., Zalewski L., A review on phase-change materials: Mathematical modeling and simulations, Renewable & Sustainable Energy Reviews, 2011, 15 112-130.
- [5] Almeida F., Zhang D., Fung A.S., Leong W.H., Comparison of corrective phase change material algorithm with ESP-r simulation, 12th Conference of IBPSA, Sydney 2011.
- [6] Pham Q.T., A fast, unconditionally stable finite-difference scheme for heat conduction with phase change, Heat Mass Transfer, 28, 1985, 2079-2084.
- [7] Klimes L., Charvat P., Ostry M., Challenges in the computer modeling of phase change materials, Materials and technology, 46, 2012, 335-338.
- [8] Sharma A., Tyagi V.V., Chen C.R., Buddhi D., Review on thermal energy storage with phase change materials and applications, Renewable & Sustainable Energy Reviews, 13, 2009, 318-345.
- [9] Pedersen C.O., Advanced zone simulation in EnergyPlus: Incorporating of variable properties and phase change material (PCM) capability, Proceedings: Building Simulation 2007.
- [10] Tabares-Velasco P.C., Christensen C., Bianchi M., Verification and validation of EnergyPlus phase change material model for opaque wall assemblies, Building and Environment 54, 2012, 186-196.
- [11] Evola G., Marletta L., Sicurella F., A methodology for investigating the effectiveness of PCM wallboards for summer thermal comfort in buildings, Building and Environment, 59, 2013, 517-527.
- [12] Ibanez M., Lazaro A., Zalba B., Cabeza L F., An approach to the simulation of PCMs in building applications using TRNSYS, Applied Thermal Engineering, 25, 2005, 1796-1807.
- [13] Kuznik F., Virgone J., Johannes K., Development and validation of a new TRNSYS type for the simulation of external building walls containing PCM, Energy and Buildings, 42, 2010, 1004-1009.
- [14] Heim D., Clarke J.A., Numerical modeling and thermal simulation of PCM-gypsum composite with ESP-r, Energy and Buildings, 36, 2004,
Uwagi
EN
This work was funded by The National Centre for Research and Development as part of the project entitled: "Promoting Sustainable Approaches Towards Energy Efficiency in Buildings as Tools Towards Climate Protection in German and Polish Cities: developing façade technology for zero-emission buildings" (acronym: GPEE).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-1b3714d3-c021-4ce2-b7b5-7d28f5c21ec5