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Journal of Building Performance Simulation Volume 9, 2016 - Issue 5
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Original Articles

Positioning of an isothermal heat storage layer in a building wall exposed to the external environment

Dariusz HeimDepartment of Environmental Engineering, Lodz University of Technology, ul. Wolczanska 213, Lodz90–924, PolandCorrespondence[email protected]
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Anna WieprzkowiczDepartment of Environmental Engineering, Lodz University of Technology, ul. Wolczanska 213, Lodz90–924, PolandView further author information
Pages 542-554 | Received 15 Dec 2014, Accepted 27 Nov 2015, Published online: 20 Jan 2016

Citations (24)

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Read on this site (2)

Dariusz Heim & Tomasz Kułakowski. (2023) Thermal model of heat transfer in a PCM multilayer construction using Moving Mushy Volume Approach – verification, validation and sensitivity analysis. Journal of Building Performance Simulation 16:3, pages 308-326.
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Benoit Delcroix, Michaël Kummert & Ahmed Daoud. (2017) Development and numerical validation of a new model for walls with phase change materials implemented in TRNSYS. Journal of Building Performance Simulation 10:4, pages 422-437.
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Articles from other publishers (22)

Mohammed-Hichem Benzaama, Farjallah Alassaad, Lala Rajaoarisoa & Karim Touati. (2023) Artificial intelligence approaches to predict thermal behavior of light earth cell incorporating PCMs: Experimental CNN and LSTM validation. Journal of Energy Storage 68, pages 107780.
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Anna Wieprzkowicz, Dariusz Heim & Dominika Knera. (2022) Coupled Model of Heat and Power Flow in Unventilated PV/PCM Wall-Validation in a Component Scale. Applied Sciences 12:15, pages 7764.
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Hongxia Zhou, André Andersson & Thomas Olofsson. (2022) Phase change materials influence on temperature variatio buildings. E3S Web of Conferences 356, pages 01044.
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Zaineb Ben Zaid, Amine Tilioua, Ibtissam Lamaamar, Omar Ansari & Moulay Ahmed Hamdi Alaoui. (2021) Thermal performance of clay-straw wall incorporating phase change materials in Errachidia city (South Eastern Morocco): A simulation approach. Case Studies in Construction Materials 15, pages e00786.
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Martin Talvik, Simo Ilomets, Targo Kalamees, Paul Klõšeiko, Dariusz Heim, Anna Wieprzkowicz & Dominika Knera. (2021) Thermal performance of ETICS, energy activated with PCM and PV. Journal of Physics: Conference Series 2069:1, pages 012116.
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Hongxia Zhou, Åke Fransson & Thomas Olofsson. (2021) Investigation of phase change materials (PCMs) on the heat transfer performance of building systems. Journal of Physics: Conference Series 2069:1, pages 012020.
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Mohammad S. Bagazi, Ammar A. Melaibari, Ahmed B. Khoshaim, Nidal H. Abu-Hamdeh, Abdulmohsen O. Alsaiari & Hani Abulkhair. (2021) Using Phase Change Materials (PCMs) in a Hot and Humid Climate to Reduce Heat Gain and Energy Consumption. Sustainability 13:19, pages 10965.
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Hongxia Zhou, Åke Fransson & Thomas Olofsson. (2021) An Explicit Finite Element Method for Thermal Simulations of Buildings with Phase Change Materials. Energies 14:19, pages 6194.
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Ruey-Lung Hwang, Bi-Lian Chen & Wei-An Chen. (2021) Analysis of Incorporating a Phase Change Material in a Roof for the Thermal Management of School Buildings in Hot-Humid Climates. Buildings 11:6, pages 248.
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Qudama Al-Yasiri & Márta Szabó. (2021) Experimental evaluation of the optimal position of a macroencapsulated phase change material incorporated composite roof under hot climate conditions. Sustainable Energy Technologies and Assessments 45, pages 101121.
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Dariusz Heim, Anna Wieprzkowicz, Dominika Knera, Simo Ilomets, Targo Kalamees & Zdenko Špitalský. (2021) Towards Improving the Durability and Overall Performance of PV-ETICS by Application of a PCM Layer. Applied Sciences 11:10, pages 4667.
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Yahia Abdelhamid Lakhdari, Salah Chikh & Antonio Campo. (2020) Analysis of the thermal response of a dual phase change material embedded in a multi-layered building envelope. Applied Thermal Engineering 179, pages 115502.
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Sajith Wijesuriya, Paulo Cesar Tabares-Velasco, Kaushik Biswas & Dariusz Heim. (2020) Empirical validation and comparison of PCM modeling algorithms commonly used in building energy and hygrothermal software. Building and Environment 173, pages 106750.
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Simo Ilomets, Dariusz Heim, Ivan Chodak, Dariusz Czarny & Targo Kalamees. (2020) A method to develop energy activated ETICS. E3S Web of Conferences 172, pages 21006.
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Hongxia Zhou, Åke Fransson & Thomas Olofsson. (2020) Influence of Phase Change Materials (PCMs) on the thermal performance of building envelopes. E3S Web of Conferences 172, pages 21002.
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Umberto Berardi & Shahrzad Soudian. (2019) Experimental investigation of latent heat thermal energy storage using PCMs with different melting temperatures for building retrofit. Energy and Buildings 185, pages 180-195.
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A Wieprzkowicz & D Heim. (2018) The characteristics of temperature fluctuations in thermal insulation covered with layer of PCM. IOP Conference Series: Materials Science and Engineering 415, pages 012017.
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Umberto Berardi & Shahrzad Soudian. (2018) Benefits of latent thermal energy storage in the retrofit of Canadian high-rise residential buildings. Building Simulation 11:4, pages 709-723.
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Václav Kočí, Jan Kočí, Jiří Maděra, Zbyšek Pavlík, Xianglin Gu, Weiping Zhang & Robert Černý. (2018) Thermal and hygric assessment of an inside-insulated brick wall: 2D critical experiment and computational analysis. Journal of Building Physics 41:6, pages 497-520.
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Roberto Ricciu, Luigi A. Besalduch, Alessandra Galatioto & Giuseppina Ciulla. (2018) Thermal characterization of insulating materials. Renewable and Sustainable Energy Reviews 82, pages 1765-1773.
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Dariusz Heim & Anna Wieprzkowicz. (2017) Attenuation of Temperature Fluctuations on an External Surface of the Wall by a Phase Change Material-Activated Layer. Applied Sciences 8:1, pages 11.
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Ahmad Hasan, Khaled Al-Sallal, Hamza Alnoman, Yasir Rashid & Shaimaa Abdelbaqi. (2016) Effect of Phase Change Materials (PCMs) Integrated into a Concrete Block on Heat Gain Prevention in a Hot Climate. Sustainability 8:10, pages 1009.
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