Project detail

Climate responsive components integrated in energy and environmentally efficient building envelope

Duration: 01.01.2020 — 31.12.2022

Funding resources

Czech Science Foundation - Standardní projekty

- whole funder (2020-01-01 - 2022-12-31)

On the project

V současné době probíhá výzkum a vývoj v oblasti efektivních obalových technologií budov s integrováním různých typů adaptivních podob. Integrace nových řešení umožňuje využití solárních/tepelných zisků ke zlepšení energetické účinnosti budov v souladu s evropskou energetickou strategií – využívání obnovitelné sluneční energie. Teoretická predikce ve vztahu s reálnými charakteristikami a účinnost těchto řešení v konceptech fasád reagujících na změnu klimatických podmínek pro oblast střední Evropy jsou současnými výzkumnými výzvami. Projekt je zaměřen na teoretický a experimentální výzkum adaptivních řešení integrovaných ve fasádních konceptech. Nový PV/PCM komponent a jeho integrace ve fasádním prvku budou vyvinuty, fyzikálně charakterizovány, experimentálně testovány a optimalizovány. Cílem je redukce konvenčních materiálových řešení zajištujících současné nároky na tepelněizolační vlastnosti obálek budov při nalezení optimální úrovně mezi energetickými a environmentálními aspekty více funkčního stavebního prvku a jeho funkčnosti v konceptu adaptivní fasády.

Description in English
R&D in the field of efficient building envelope technologies is currently being conducted regarding the integration of various types of adaptive materials. The integration of new solutions enables the use of solar/thermal gains to improve the energy efficiency of buildings according to the European energy strategy for renewable solar energy. Theoretical prediction in connection with real characteristics and the performance of these solutions in climate responsive façade concepts are relevant research challenges. The project is focused on theoretical and experimental research into adaptive solutions implemented in façade concepts. New PV/PCM component and its façade integration will be developed, physically characterized, tested and optimized. The aim is to reduce reliance on conventional material solutions that meet the current requirements for the thermal insulation of building envelopes. The goal is to find an optimal level between the energy and environmental aspects of multifunctional building element.

Keywords
adaptívní materiály;obálka budovy;energetická ůčinnost;optické vlastnosti;fotovoltaika; akumulace tepla;skladování tepelné energie;latentní teplo;materiály se zmenou skupenství; termoelektrický efekt;predikce účinnosti;simulace budov;průsvitnost

Key words in English
adaptive materials;building envelope;energy efficiency;optical properties;photovoltaics;heat accumulation;thermal energy storage;latent heat;phase change materials;thermoelectric effect; performance prediction;building simulation;translucency

Mark

20-00630S

Default language

Czech

People responsible

Čurpek Jakub, Ing., Ph.D. - fellow researcher
Oravec Jakub, Ing., Ph.D. - fellow researcher
Slávik Richard, Ing., Ph.D. - fellow researcher
Struhala Karel, Ing., Ph.D. - fellow researcher
Šikula Ondřej, prof. Ing., Ph.D. - fellow researcher
Čekon Miroslav, doc. Ing., Ph.D. - principal person responsible

Units

Institute of Building Structures
- beneficiary (2020-01-01 - 2022-12-03)

Results

ČEKON, M.; ČURPEK, J.; SLÁVIK, R.; ŠIKULA, O. Coupled transparent insulation system with low emissivity solar absorber: An experimentally validated building energy simulation study. Science and Technology for the Built Environment, 2020, vol. 26, no. 1, p. 1-13. ISSN: 2374-4731.
Detail

KURUC, M.; ČEKON, M.; ČURPEK, J.; SLÁVIK, R.; MEDVEĎ, I. Spectral test method for light transmittance of transparent building components using different artificial radiation sources. In Central European Symposium on Thermophysics 2022 (CEST 2022). Melville: AIP Publishing, 2023. p. 030004-1 (030004-6 p.)ISBN: 978-0-7354-4722-6.
Detail

LARBI, M.; YAHIAOUI, T.; BELKADI, M.; ADJLOUT, L.; LADJEDEL, O.; ŠIKULA, O. Numerical Study of Passive and Active Flow Separation Behavior over NACA 0015 Airfoil. International Journal of Fluid Machinery and Systems, 2020, vol. 13, no. 2, p. 327-335. ISSN: 1882-9554.
Detail

ČEKON, M.; ŠIKULA, O. Experimental and numerical study on the thermal performance of polycarbonate panels. Journal of Building Engineering, 2020, vol. 32, no. 1, p. 1-14. ISSN: 2352-7102.
Detail

ČEKON, M.; STRUHALA, K.; KOPKÁNĚ, D. Preparation and characterization of a selective polymer-based solar absorber for building integration. Applied Sciences - Basel, 2020, vol. 10, no. 21, p. 1-14. ISSN: 2076-3417.
Detail

ČURPEK, J.; ČEKON, M. The effect of PCM layer on the natural air flow movement in the façade cavity of BiPV system. In 12th Nordic Symposium on Building Physics (NSB 2020). E3S Web of Conferences. E3S Web Conf. Francie: EDP Sciences, 2020. p. 1-8. ISSN: 2267-1242.
Detail

CABANOVÁ, T.; ČURPEK, J.; ČEKON, M. Research challenges and opportunities in transparent PCM-incorporated systems. In 2nd Central European Symposium on Thermophysics 2020. AIP conference proceedings. AIP Publishing, 2020. p. 1-7. ISSN: 0094-243X.
Detail

SLÁVIK, R.; ČEKON, M. The longwave sky radiation effect on the condensation risk of ventilated double-skin roof structures. In 2nd Central European Symposium on Thermophysics 2020. AIP conference proceedings. AIP Publishing, 2020. p. 1-7. ISSN: 0094-243X.
Detail

KRAJČÍK, M.; ŠIKULA, O. Heat storage efficiency and effective thermal output: Indicators of thermal response and output of radiant heating and cooling systems. ENERGY AND BUILDINGS, 2020, vol. 229, no. 1, p. 1-14. ISSN: 0378-7788.
Detail

ORAVEC, J.; ŠIKULA, O.; KRAJČÍK, M.; ARICI, M.; MOHAPL, M. A comparative study on the applicability of six radiant floor, wall, and ceiling heating systems based on thermal performance analysis. Journal of Building Engineering, 2021, vol. 36, no. 4, p. 1-11. ISSN: 2352-7102.
Detail

KRAJČÍK, M.; ARICI, M.; ŠIKULA, O.; ŠIMKO, M. Review of water-based wall systems: Heating, cooling, and thermal barriers. ENERGY AND BUILDINGS, 2021, vol. 253, no. 1, p. 1-31. ISSN: 0378-7788.
Detail

JUNAID, M.; UR REHMAN, Z.; ČEKON, M.; ČURPEK, J.; FAROOQ, R.; CUI, H.; KHAN, I. Inorganic phase change materials in thermal energy storage: A review on perspectives and technological advances in building applications. ENERGY AND BUILDINGS, 2021, vol. 252, no. 1, p. 1-29. ISSN: 0378-7788.
Detail

ČURPEK, J.; ČEKON, M. AN EVALUATION OF THE STRUCTURE OF ENERGY CONSUMPTION IN EDUCATIONAL BUILDINGS IN POLAND AFTER THERMAL RETROFITTING. Slovak Journal of Civil Emgineering, 2020, vol. 28, no. 4, p. 29-37. ISSN: 1210-3896.
Detail

SLÁVIK, R.; STRUHÁROVÁ, A.; ČEKON, M. Reliability Study of Equilibrium Moisture Content Methods for Sorption/Desorption Isotherms Determination of Autoclaved Aerated Concrete. Applied Sciences - Basel, 2021, vol. 11, no. 2, p. 1-19. ISSN: 2076-3417.
Detail

CABANOVÁ, T.; KURUC, M.; ČURPEK, J.; URBÁN, D.; ČEKON, M. Thermo-optical reaction changes of a PCM filled glass system. In 8th International Building Physics Conference (IBPC 2021). Journal of Physics: Conference Series. IOP Publishing, 2021. p. 1-3. ISSN: 1742-6596.
Detail

JUNAID, M.; UR REHMAN, Z.; KURUC, M.; MEDVĚĎ, I.; BACINSKAS, D.; ČURPEK, J.; ČEKON, M.; IJAZ, N.; ANSARI, W. Lightweight concrete from a perspective of sustainable reuse of waste byproducts. Construction and building materials, 2021, vol. 319, no. 1, p. 1-29. ISSN: 0950-0618.
Detail

ČURPEK, J.; ČEKON, M. A Simple Trombe Wall Enhanced with a Phase Change Material: Building Performance Study. In Sustainability in Energy and Buildings. Smart Innovation, Systems and Technologies. Springer Nature Singapore Pte Ltd., 2021. p. 281-291. ISSN: 2190-3018.
Detail

ČEKON, M.; SLÁVIK, R. Thermal performance of ceramic hollow brick modified with low emissivity coating. In Central European Symposium on Thermophysics 2021. AIP conference proceedings. AIP Publishing, 2021. p. 020003-1 (020003-6 p.)ISSN: 0094-243X.
Detail

BUDAY, P.; ČURPEK, J. Double-skin facade configuration to increase its thermal efficiency: Simulation study. Vytápění, větrání, instalace. Praga: Společnost pro techniku prostředí, 2020. p. 306-311. ISSN: 1210-1389.
Detail

JUNAID, M.; REHMAN, Z.; IJAZ, N.; ČEKON, M.; ČURPEK, J., BABEKER ELHAG, A. Biobased phase change materials from a perspective of recycling, resources conservation and green buildings. ENERGY AND BUILDINGS, 2022, vol. 270, no. 2022, p. 112280 ( p.)ISSN: 0378-7788.
Detail

ČURPEK, J.; ČEKON, M.; ŠIKULA, O.; SLÁVIK, R. Thermodynamic responses of adaptive mechanisms in BiPV fa?ade systems coupled with latent thermal energy storage. ENERGY AND BUILDINGS, 2023, vol. 279, no. 112665, p. 1-18. ISSN: 0378-7788.
Detail

ČURPEK, J.; ČEKON, M. Building performance simulation of a photovoltaic facade enhanced with latent heat storage: Model validation and power generation prediction. Journal of Energy Storage, 2022, vol. 56, no. 106143, p. 1-17. ISSN: 2352-152X.
Detail

ČURPEK, J.; ČEKON, M.; ŠIKULA, O.; JUNAID, M. Challenges in BiPV/PCM Facade System: Pathways Towards Numerical Modelling and Simulation Approaches. In SUSTAINABILITY IN ENERGY AND BUILDINGS 2022: Smart Innovation Systems and Technologies. SINGAPORE: SPRINGER-VERLAG SINGAPORE PTE LTD, 2023. p. 291-300. ISBN: 978-981-19-8769-4.
Detail

ČURPEK, J.; ČEKON, M.; KURUC, M.; SLÁVIK, R.; JUNAID, M. Dynamic and Spectral Transmission Changes in a Glass System Coupled with Photovoltaics and Phase Change Materials Subjected to Solar Simulator Tests. In COBEE 2022: Proceedings of the 5th International Conference on Building Energy and Environment. Environmental Science and Engineering. Singapore: Springer Nature Singapore Pte Ltd., 2023. p. 785-793. ISBN: 9789811998218. ISSN: 1863-5539.
Detail

CABANOVÁ, T.; ČEKON, M.; BEVILACQUA, P.; ČURPEK, J. Spectral transmittance changes in a PCM glass block affected by an artificial radiation source. In SBE23-Thessaloniki "Sustainable Built Environments: Paving the Way for Achieving the Targets of 2030 and Beyond. Bristol: IOP Publishing, 2023. p. 1-8. ISBN: 9781713875062.
Detail

ČURPEK, J.; ČEKON, M. Climate response of a BiPV façade system enhanced with latent PCM-based thermal energy storage. RENEWABLE ENERGY, 2020, no. 152, p. 368-384. ISSN: 0960-1481.
Detail