TY - GEN
T1 - Minimal Invasive Refurbishment of Post-War Buildings with a Multifunctional Façade Element
AU - Bayer, M.
AU - Karnutsch, M.
AU - Gnigler, M.
AU - Reiter, T.
AU - Leeb, M.
N1 - Conference code: 167860
Export Date: 14 December 2023
Funding details: Bundesministerium für Verkehr, Innovation und Technologie, BMVIT
Funding text 1: The presented results were obtained within the research project “Alpine Building Centre” (www.alpinesbauen.at). The data basis for this paper was obtained from the research project “Wohnen findet Stadt – Demo Hallein”, commissioned and funded by the “Klima-und Energiefonds” under the authority of the Austrian Federal Ministry for Transport, Innovation and Technology (BMVIT) and the resarch project “Salzburger Multifunktionsfassade”, commissioned and funded by the county of Salzburg. Project partners: Architekt Paul Schweizer, Salzburg University of Applied Sciences, City of Hallein, RSA iSpace Forschungsgesellschaft mbH, Planum Fallast Tischler & Partner GmbH, Innova Holz GmbH, VELOX Werk GmbH, Isocell GmbH, Schaber Anton Installationen, Gebäude-und Regeltechnik GmbH, KEKELIT Kunststoffwerk GmbH, Raumklima Planungsgesellschaft GmbH
References: (2015) OIB Guideline 6, , Austrian Insitute of Construction Engineering. Vienna; (2011) Wärmeschutz im Hochbau – Teil 5: Klimamodell und Nutzungsprofile, , Austrian Standards. ÖNORM B8110-5. Vienna; Bayer, M., Karnutsch, M., Grobbauer, M., Gnigler, M., Leeb, M., (2019) Simulation Model for Minimal Invasive Refurbishment Approaches Through Prefabricated Multifunctional Radiant Heating Façade Elements, , Rome. Conference: 16th IBPSA Conference; Birchall, S., Gustafsson, M., Wallis, I., Dipasquale, C., Bellini, A., Fedrizzi, R., (2016) Survey and simulation of energy use in the European building stock; (2016) Gebäude 2011 nach überwiegender Gebäudeeigenschaft, Errichtungsjahr und Bundesland, , Statistics AUSTRIA. Vienna; Steinemann, U., (1995) Experimentelle Untersuchungen zur Luftdurchlässigkeit von schweizerischen Bauten, , Zürich. NEFF-Projekt Nr. 226; (2015) SIA 2024. Raumnutzungsdaten für Energie- und Gebäudetechnik, , Swiss Society of Engineers and Architects. Zürich
PY - 2019
Y1 - 2019
N2 - The aim of this paper is the evaluation of a refurbishment process by means of a facade renovation of a multi-family residential building erected during the post-war period (1950s) in Hallein/Austria. Based on the stocktaking analysis of the project area combined with a social-scientific study a fully functioning façade prototype was developed. As a driving force, particularly the demands of minimal-invasiveness from the building operator (the city of Hallein) and the tenants resulted in this novel way of refurbishment, described in this paper. Implementing the heating system within the façade and especially the thermal connection to the existing exterior wall, was a major challenge. Replacement of the current predominant decentralized heating units to a uniform district heating system is a major benefit of the façade system. The developed façade system combines heating, insulation and sound absorption in one element. It serves as an example for buildings that are in need of renovation, while being minimally invasive and energy efficient. In December 2017 the first prototype was erected. Relevant components of the prototype include an activated mortar layer in which the heating circuits for external wall activation have been placed, a composite wood panel, cellulose blown insulation, a wooden formwork, a rear ventilation gap and sound absorption panels. During prefabrication process and the attachment of the prototype façade element, component sensors were set for continuous monitoring of temperatures and relative humidity both in the façade element and in the existing outer wall. Due to the activation from the outside, the heat dissipation system inside the building becomes obsolete. A further interference with the private sphere of the residents is thereby prevented. Additionally, the existing windows were renewed and a vertical densification was conducted. In spite of the increase of 547 m2 of living area (5,888 ft2) in the course of the refurbishment, the annual heating demand is reduced by 64 % from 143,450 kWh (489,472 kBtu) to 51,002 kWh (174,025 kBtu). Due to the externally mounted low temperature heating system, and thus the change from radiators and individual firing systems to radiant heating via the building envelope, the radiation asymmetry is improved, leading to enhanced level of comfort, in addition to the minimal impact on the residents during the refurbishment. © 2019 ASHRAE.
AB - The aim of this paper is the evaluation of a refurbishment process by means of a facade renovation of a multi-family residential building erected during the post-war period (1950s) in Hallein/Austria. Based on the stocktaking analysis of the project area combined with a social-scientific study a fully functioning façade prototype was developed. As a driving force, particularly the demands of minimal-invasiveness from the building operator (the city of Hallein) and the tenants resulted in this novel way of refurbishment, described in this paper. Implementing the heating system within the façade and especially the thermal connection to the existing exterior wall, was a major challenge. Replacement of the current predominant decentralized heating units to a uniform district heating system is a major benefit of the façade system. The developed façade system combines heating, insulation and sound absorption in one element. It serves as an example for buildings that are in need of renovation, while being minimally invasive and energy efficient. In December 2017 the first prototype was erected. Relevant components of the prototype include an activated mortar layer in which the heating circuits for external wall activation have been placed, a composite wood panel, cellulose blown insulation, a wooden formwork, a rear ventilation gap and sound absorption panels. During prefabrication process and the attachment of the prototype façade element, component sensors were set for continuous monitoring of temperatures and relative humidity both in the façade element and in the existing outer wall. Due to the activation from the outside, the heat dissipation system inside the building becomes obsolete. A further interference with the private sphere of the residents is thereby prevented. Additionally, the existing windows were renewed and a vertical densification was conducted. In spite of the increase of 547 m2 of living area (5,888 ft2) in the course of the refurbishment, the annual heating demand is reduced by 64 % from 143,450 kWh (489,472 kBtu) to 51,002 kWh (174,025 kBtu). Due to the externally mounted low temperature heating system, and thus the change from radiators and individual firing systems to radiant heating via the building envelope, the radiation asymmetry is improved, leading to enhanced level of comfort, in addition to the minimal impact on the residents during the refurbishment. © 2019 ASHRAE.
KW - Acoustic wave absorption
KW - Chemical activation
KW - District heating
KW - Heating equipment
KW - Solar buildings
KW - Sound insulating materials
KW - Sound insulation
KW - Temperature
KW - Walls (structural partitions)
KW - Wood
KW - Continuous monitoring
KW - Decentralized heating
KW - District heating system
KW - Low temperature heating
KW - Radiation asymmetry
KW - Refurbishment process
KW - Relevant components
KW - Residential building
KW - Energy efficiency
KW - Acoustic Insulation
KW - Activation
KW - Heating Equipment
KW - Processes
KW - Systems
KW - Walls
M3 - Conference contribution
BT - ASHRAE Topical Conference Proceedings
PB - American Society of Heating Refrigerating and Air-Conditioning Engineers
T2 - 14th International Conference on Thermal Performance of the Exterior Envelopes of Whole Buildings 2019
Y2 - 9 December 2019 through 12 December 2019
ER -
