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https://doi.org/10.13044/j.sdewes.d6.0234

Building Wall Heat Capacity Measurement Through Flux Sensors

Roberto Ricciu ; Department of civil engineering, environmental and architecture, University of Cagliari, Cagliari, Italy
Alessandra Galatioto ; Department of civil engineering, environmental and architecture, University of Cagliari, Cagliari, Italy
Luigi A. Besalduch ; Department of civil engineering, environmental and architecture, University of Cagliari, Cagliari, Italy
Giuseppe Desogus ; Department of civil engineering, environmental and architecture, University of Cagliari, Cagliari, Italy
Lorenza Di Pilla ; College of Architecture and Design, Al Ghurair University, Dubai International Academic City, Dubai, United Arab Emirates


Puni tekst: engleski pdf 932 Kb

str. 44-56

preuzimanja: 571

citiraj


Sažetak

Thermal comfort and energy saving have become a priority for construction industry professionals. An important parameter of the comfort is the mean radiant temperature and its dependence on the building envelope. In the present research, a dynamic physical
model has been studied in a climatic chamber, linked to the specific heat (C), density () and thermal conductivity (). The heat capacity is usually quantifiable in small, homogeneous and uniform samples by the application of calorimetric methods. Consequently, the building energy consumption assessed through calorimetric methods, is often quite different from the energy consumption measured in situ. In this work an
experimental model for the assessment of specific heat of real-size building components is proposed. Such a parameter was determined by measuring the heat flow through a building wall. The model has been validated by comparing the evaluated properties of known materials for different thermal gaps.

Ključne riječi

Lightweight walls; Specific heat capacity; Climatic chamber; Experimental tests; Physical propriety; Dynamic model; Energy saving.

Hrčak ID:

217808

URI

https://hrcak.srce.hr/217808

Datum izdavanja:

31.3.2019.

Posjeta: 1.358 *