Improved thermal energy storage for heating and cooling of buildings

One of the great challenges in the energy sector represents retrofit of residential buildings where 3/4 of buildings in Europe are residential. To reduce energy consumption and increase the use of renewables in existing residential buildings a holistic approach of retrofit with interconnected techno...

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Bibliographic Details
Published in:E3S web of conferences 2019-01, Vol.111, p.1100
Main Authors: Koželj, Rok, Ahčin, Žiga, Zavrl, Eva, Stritih, Uroš
Format: Article
Language:English
Subjects:
Buildings
Cold storage
Cooling
Energy consumption
Energy industry
Energy management
Energy storage
Flux density
Heat
Heat exchangers
Heat pumps
Heat storage
Heating
Housing
Modules
Paraffin
Paraffins
Phase change materials
Residential areas
Residential buildings
Residential development
Residential energy
Solar energy
Storage tanks
Storage units
Temperature effects
Thermal energy
Water temperature
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Summary:One of the great challenges in the energy sector represents retrofit of residential buildings where 3/4 of buildings in Europe are residential. To reduce energy consumption and increase the use of renewables in existing residential buildings a holistic approach of retrofit with interconnected technological system is needed. In the present paper energy toolkit based on the synergetic interaction between technologies integrated in the system for holistic retrofit of residential buildings which is under development within HEART project (HORIZON 2020) is presented. In this project step towards self-sufficient heating and cooling of building is made with an increase in on-site consumption of self-produced energy in PV from solar energy, where produced electrical energy is used also for heat pump operation. In this case thermal energy storage plays an important role for storing heat or cold for time when solar energy is not available. Improvement of sensible thermal energy storage with implemented cylindrical modules at the top of the heat storage tank and filled with phase change material is investigated experimentally. 43 litres of paraffin with phase change temperature between 27 °C and 29 °C was used in a system, what represented 15 % of total volume of heat storage tank. The results from experiment shows that thermal energy storage unit with integrated modules filled with phase change material can supply desired level of water temperature for twice as long at smaller temperature level as sensible thermal energy storage what is the consequence of higher energy density that can be stored during phase change. The advantage of phase change materials is in thermal energy storage for applications that needs narrow temperature range of supplying and storing thermal energy what is the subject matter of consideration in the case of HEART project.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/201911101100