The correct estimate of individual thermal energy consumptions, and consequently, a fair heat cost allocation among the residents of apartment buildings with centralized heating systems, represents an important driving force towards energy saving, energy efficiency and the reduction of pollutant emissions. Nowadays, in those contexts where direct heat meters cannot be used because of the layout of the hot water distribution system, electronic Heat Cost Allocators (HCAs) have the highest market share for the assessment of individual thermal energy consumptions. The uncertainty associated with the parameterization of heat cost allocation devices and the installation effects arising in real applications can negatively affect the accuracy of these devices, as far as the estimation of the individual fractions of thermal energy consumption is concerned. This work deals with the experimental analysis of a novel heat cost allocation method for apartment buildings and its comparison with conventional HCAs. The method allows the indirect estimation of the thermal energy exchanged by water radiators without the need for surface temperature measurements, reducing some of the drawbacks associated with the on-site installation. The experimental analysis was carried out in a full-scale central heating system test facility available at the Italian National Metrology Institute (INRIM) and characterized by SI-traceable direct heat meters installed on each water radiator.
Experimental Analysis of a Heat Cost Allocation Method for Apartment Buildings / Saba, Fabio; Fernicola, Vito; Masoero, Marco; Abramo, Salvatore. - In: BUILDINGS. - ISSN 2075-5309. - 7:4(2017).
|Titolo:||Experimental Analysis of a Heat Cost Allocation Method for Apartment Buildings|
|Data di pubblicazione:||2017|
|Citazione:||Experimental Analysis of a Heat Cost Allocation Method for Apartment Buildings / Saba, Fabio; Fernicola, Vito; Masoero, Marco; Abramo, Salvatore. - In: BUILDINGS. - ISSN 2075-5309. - 7:4(2017).|
|Appare nelle tipologie:||1.1 Articolo in rivista|