ALLGEMEINE INFORMATIONEN RENOVIERUNGS-PROZESS SANIERUNGS-LÖSUNGEN BEWERTUNG

Basilica di Santa Maria di Collemaggio

Piazzale di Collemaggio, 5

67100

L'Aquila, Italien

Ansprechpartner

Fabrizio Leonforte

Politecnico di Milano

fabrizio.leonforte@polimi.it

Other Information

Visits
Public building

Related publications
3

The Basilica di S. Maria di Collemaggio, L’Aquila, is a masterpiece of Abruzzese Romanesque and Gothic architecture and a very important religious site for the original Papal Jubilee devised by Pope Celestine V, who is buried there. The main challenge was to design a heating system comprehensive of its connections and pipes without interfering in the original appearance of the church, able at the same time to preserve the cultural heritage of the Basilica. The restoration of the Basilica was financially supported by ENI.

ALLGEMEINE INFORMATIONEN RENOVIERUNGS-PROZESS SANIERUNGS-LÖSUNGEN BEWERTUNG

Energieeffizienz

6700 kWh/y

Klimazone Cfb

Höhe über dem Meer 714 m ü.d.M.

Heizgradtage 2514

Kühlgradtage 255

Unterschutzstellung denkmalgeschützt

Ensembleschutz:
Ja

Stufe der Unterschutzstellung:
National monument

Baualter vor 1600

Letzte Sanierung:
2017

Vorhergehende Sanierungen:
2015

Gebäudenutzung Religious

Gebäudebelegung:
Discontinuous occupancy (i.e. holiday home)

Anzahl der Bewohner/Nutzer:
500

Gebäudefläche Nettogeschossfläche [m²]: 2140,5

Gebäudetyp:
Church

Anzahl der Stockwerke:
1

Keller ja/nein:
Nein

Anzahl der beheizten Stockwerke:
1

Bruttogeschossfläche [m²]:
2488,9

Volumen [m³]:
34800,0

NGF Berechnungsmethode:
Useful area (it)

Bauart

Stone masonry wall

Außen:
Exposed stonework

Innen:
Plastered (on hard)

Dach:
Pitched roof

+ MEHR - WENIGER

General scheme of the high-efficiency hydronic pew-based heating - N. Aste et al. / Energy and Buildings 116 (2016) 218–231

RENOVIERUNGS-PROZESS

Architektur

BESCHREIBUNG

The Basilica di S. Maria di Collemaggio, L’Aquila, is a master-piece of Abruzzese Romanesque and Gothic architecture and a very important religious site for the original Papal Jubilee devised by Pope Celestine V, who is buried there. The church is famous for its pink and white stone facade; the interior includes a nave and two side aisles, each one divided from it by a row of columns. The austere character of the interior is due mainly to restoration works completed in 1972, which aimed at restoring the mediaeval appearance that had been changed by the baroque reconstruction after the 1703 earthquake.

Städtebaulicher Kontext

The Basilica di Collemaggio is located outide the walls of the city, surrounded by a residential area; it is close to a green famous area in the city: Parco del sole. It is also near to a car park and bus terminal parking and to the hospital.

Erhaltungszustand

Erhaltungszustand der Gebäudehülle

The transept suffered the most damage in the 2009 earthquake, with the total collapse of the large multi-lobed pillars, the triumphal arch and the roofing. The earthquake caused also serious damage to the decorative stucco work, causing severe damage, cracks with the alarming displacement of floors, defective adhesion and hundreds of fragments found in the collapse area. The violent impact of the overwhelming amount of rubble which fell from the transept seriously damaged the entire area below it: more specifically, the floor sank in an area of about 70 square metres and was shattered in several places, the side altars were conspicuously disjointed and studded with damage, as were the floor slabs in the Celestini Abbots and the access balustrades to the chapels and presbytery.

Haustechnische Anlagen vor Sanierung

Santa Maria di Collemaggio is a church that has always hosted religious functions.

DENKMALWERT

ERHALTENSWERTE ELEMENTE

It was worth preserving paintings on the right aisle, particularly the Madonna con le sante Agnese e Apollonia, the Assunzione ed incoronazione della Vergine and the Crocefissione, all dating back to the 15th century. Along the left aisle there is the pictorial cycle “Storie della vita di papa Celestino V”. In the right apse there is the mausoleum of Pope Celestine; the church choir’s columns and capitals are particurlary precoius as the baroque marble altar.

Denkmalwert und wie er bestimmt wurde

Listed building - Monument

Ziel der Sanierung

Renovation

The earthquake that struck L’Aquila on April 6th 2009 caused severe damages. The restoration project has been developed using advanced survey, modelling and design techniques, including laser scanning and HBIM. The works had to face many problems, one of them being the problem of heating, which is relevant also because of the local climate: L’Aquila is located at an elevation of m 720 among the mountains and is characterized by severe winters.

Beteiligte Akteure

Private
Eni, oil and gas italian company, funded the renovation
-

Forschung und Entwicklung
Niccolò Aste - Politecnico di Milano
-
niccolo.aste@polimi.it

Berater Denkmalpflege
Stefano Della Torre - Politecnico di Milano
Piazza Leonardo da Vinci, 32, 20133 Milano MI
stefano.dellatorre@polimi.it

Energieberater
Niccolò Aste - Politecnico di Milano
Piazza Leonardo da Vinci, 32, 20133 Milano MI
niccolo.aste@polimi.it

Haustechniker
Niccolò Aste - Politecnico di Milano
Piazza Leonardo da Vinci, 32, 20133 Milano MI
niccolo.aste@polimi.it

Eingesetzte Software/Berechnungstools

Folgte die Sanierung einer spezifischen Methode? Nein

Energiebilanz Energy Plus
Hygrothermische Bewertung Ansys Fluent

CFD Comfort Analysis of a Sustainable Solution for Church Heating Sustainable church heating: The Basilica di Collemaggio case-study Church heating: comparison of different strategies

SANIERUNGS-LÖSUNGEN

HVAC

HEIZUNG

High-efficiency hydronic pew-based heating system specifically designed for the Basilica di Collemaggio. In such system the heat transfer fluid (water) is heated by the generator, which is a water to water heat pump, and is distributed through small pipes to the benches and the heated footboards. The pews thus integrate hydronic radiant panels, specifically adapted for the purpose, placed in order to maximize the radiative surface and the related view factor in respect to seated people. The whole heating system was designed assuming an heat pump with a nominal power of 30 kW (brine input temperature of 0◦C and water output temperature at 40◦C) with a SCOP of the geothermal heat pump system equal to 4. It takes into account also electric consumption due to required auxiliaries. The geothermal heat exchanger are realized with 4 boreholes (150 m deep each) placed on the back of the Basilica. The entire system is turned on 1 h before each celebration at nominal power and to be switched off at the end of the event.

The effectiveness of the proposed heating system was simulated considering the whole church’s environment using CFD software. It shows that the increase in air temperature in the upper part of the church during the heating system operations is about 2.5◦C, and thus it does not cause abrupt or substantial changes in temperature. As already said, the main advantage of the local heating system is that the air in the church is not heated towards high temperatures,but that the heat is directly radiated to people. Whereas the air temperature around the benches only rises slightly (with a temperature of about 13◦C), the radiant temperature at the positions where the people are seatedreaches a level of 17◦C or higher. It can be considered an acceptable level for providing human thermal comfort, according to the results of the comfort analysis.

Section of the hydronic pew-based heating system

General scheme of the high-efficiency hydronic pew-based heating

Mehr Details

	Heizungssystem nach Sanierung
Art der Heizung	Heat pump
Brennstoff	Electricity
Wärmeverteilung	Hydronic high-efficiency pew-based system
Nennleistung	30 kW kW

ERNEUERBARE ENERGIE

Geothermie

The solution proposed is able to combine the advantages obtainable from electric benches with those of a hydronic heating system coupled with ground-source heat pumps, combining good local comfort levels to significant energy savings and low or no impact on the artworks and building structures.

Among the various solutions analyzed, this appears to be definitely the best, both in terms of comfort and artworks conservation, although the heat dispersed by Joule effect adversely affects the overall energy efficiency.

In detail, the radiant plates have been realized with extruded aluminium profiles, specifically adapted for the purpose. These elements are provided with internal ducts with circular section, in which the heat transfer fluid flows, and can directly be covered with a thin layer of wood as a finishing. The wooden structure of the bench is designed to fully integrate all the pipes and the joints, and is provided with different openings in order to ensure an easy access in case of maintenance. The hydraulic interconnection among different pews is realized with above-floor copper pipes hidden in a wooden channel.

Mehr Details

	Geothermal System
Type	Vertical loop
Overall yearly production	30,0 kWh

Energieeffizienz

Energieausweis Nein
Freiwillige Zertifikate Nein

Energievrabrauch

Heizung
Primärenergie 6700 kWh/y
Energieverbrauch nach Sanierung 6700 kWh/y

Primärenergie
Berechnungsmethode Dynamic simulation (e.g. EnergyPlus)

Documents:

3.Church heating comparison of different strategies.pdf

Church heating comparison of different strategies

Energieverbrauch vor Sanierung 410000 kWh/y
Energieverbrauch nach Sanierung 6700 kWh/y

Raumklima

Temperatur

As already said, the main advantage of the local heating system is that the air in the church is not heated towards high temperatures, but that the heat is directly radiated to people. Whereas the air temperature around the benches only rises slightly (with a temperature of about 13◦C), the radiant temperature at the positions where the people are seated reaches a level of 17◦C or higher. It can be considered an acceptable level for providing human thermal comfort.

Erhaltung von Ausstellungsstücken

As previously introduced, pew-based heating is an interesting technical solution for local thermal comfort, thus also such solution was assessed for the analyzed case-study; recent research demonstrated that novel technical solutions integrating electric heating foils properly installed as under-seat, under-kneeler and hand-warmer elements can ensure optimal comfort level while minimizing the negative influence on the church and its artworks.

Kosten

Finanzielle Aspekte

The feasible solutions for the Basilica di S, Maria di Collemaggio were analysed, including a novel pew-based hydronic system for local comfort. The obtained result in terms of global cost demonstrated that pew-based systems (electric or hydronic), which are the most suitable in terms of comfort and artworks preservation, achieve also the best cost-effectiveness on a reference period of 30 years.

Investitionskosten

Total investment costs
104,000 € Total (60 pews) (total)
Amount includes: - Hydronic radiant plates with hydraulic 850 connections - Boreholes (4 units, ISO m. deep each) - Heat pump and water tank - Primary and secondary hydronic circuits, pumps and valves - Control and management system

Betriebskosten

Lifecycle cost
Nein

Lifecycle documents:

3.Church heating comparison of different strategies_3.pdf

Umwelt

Treibhausgasemissionen

Methodology_used: A comparison was carried out considering the specific yearly CO2emission of each solution, as reported in figure. The emission factors were considered 0.2 kg CO2/kWh for natural gas and 0.433 kg CO2/kWh for electricity, according to the ones actually adopted in Italy. It can be observed that the trend of the CO2 emissions follows approximately that of the energy consumption.

Documents:

Senza titolo-1.jpg

Comparison of the yearly CO2emissions of the different feasible heatingsolutions analyzed