Abstract

Envelope insulation is a well-known strategy to improve buildings’ energy efficiency. This paper considers two archetypes of an apartment block typology largely diffused in the Italian building stock and evaluates the energy savings resulting from the application of three insulation materials: polyurethane foam, rock wool, and resin bonded fibre-board. The energy requirements for winter heating and summer cooling are assessed with EnergyPlus and then compared to the embodied energy of the insulation materials. Hence, the energy and carbon paybacks are calculated, and a cost analysis is proposed to provide an insight into the market impact for the retrofit materials’ choice. The apartment block model is analyzed in three main cities (Rome, Milan, and Palermo) allowing to assess the impact of the climatic condition in terms of minimization of primary energy consumption and environmental emissions. Simulations showed that thermal insulation has a higher impact on winter heating and slightly affects the summer cooling requirement. In Milan, the refurbishment gains relevance as the energy and carbon payback periods are shorter than those of the city of Palermo characterized by warmer weather. Considering the embodied energy impact, this method allows us to estimate the maximum potential for energy savings in existing buildings and provides an estimation of achievable results in a short-medium period.

References

1.
Röck
,
M.
,
Saade
,
M. R. M.
,
Balouktsi
,
M.
,
Rasmussen
,
F. N.
,
Birgisdottir
,
H.
,
Frischknecht
,
R.
,
Habert
,
G.
,
Lützkendorf
,
T.
, and
Passer
,
A.
,
2020
, “
Embodied GHG Emissions of Buildings—The Hidden Challenge for Effective Climate Change Mitigation
,”
Appl. Energy
,
258
.
2.
D’Agostino
,
D.
,
Parker
,
D.
, and
Melià
,
P.
,
2019
, “
Environmental and Economic Implications of Energy Efficiency in New Residential Buildings: A Multi-criteria Selection Approach
,”
Energy Strateg. Rev.
,
26
.
3.
Kumari
,
L. M. T.
,
Kulatunga
,
U.
,
Madusanka
,
N.
, and
Jayasena
,
N.
,
2020
, “
Embodied Carbon Reduction Strategies for Buildings
,”
Lect. Notes Civil Eng.
,
44
(
ICSBE 2018
), pp.
295
308
.
4.
Mirabella
,
N.
,
Rock
,
Martin
,
Saade
,
M. R. M.
,
Spirinckx
,
C.
,
Bosmans
,
M.
,
Allacker
,
K.
, and
Passer
,
A.
,
2018
, “
Strategies to Improve the Energy Performance of Buildings: A Review of Their Life Cycle Impact
,”
Buildings
,
8
(
8
), p.
105
.
5.
Hammond
,
G.
, and
Jones
,
C.
,
10 Nov 2019
,
ICE Database V3.0
, https://circularecology.com/embodied-carbon-footprintdatabase.html
6.
Law 373/1976, First Law on Energy Saving in Building, 1976.
7.
Corrado
,
V.
,
Ballarini
,
I.
, and
Corgnati
,
S.
,
2012
,
National Scientific Report on Italian Building Typologies
, https://episcope.eu/fileadmin/tabula/public/docs/scientific/IT_TABULA_ScientificReport_POLITO.pdf
8.
“Engineering Reference, EnergyPlusTM Version 8.8.0 Documentation,” 2017.
9.
Dpr 26/08/1993, Italian Decree on Climate Zone and Heating Systems Operational Hours, 1993.
10.
Gao
,
C.
,
Su
,
B.
,
Sun
,
M.
,
Zhang
,
X.
, and
Zhang
,
Z.
,
2018
, “
Interprovincial Transfer of Embodied Primary Energy in China: A Complex Network Approach
,”
Appl. Energy
,
215
, pp.
792
807
.
11.
ARERA
. “ARERA Annual Report,” 2019.
13.
Regione Lombardia, Regional Fare Lists of Lombardia, 2019.
14.
Regione Lazio, Regional Fare Lists of Lazio, 2019.
15.
Regione Sicilia, Regional Fare Lists of Sicilia, 2019.
You do not currently have access to this content.