Kalle Kuusk scite author profile

The paper presents a case study analysis of low-budget renovation of a typical concrete large-panel apartment building. Focus is on the measurements and analyses of energy consumption, indoor climate, CO 2 concentration, air leakage rate, thermal transmittance of thermal bridges, and thermal transmittance of the building envelope before and after the renovation. Results indicate that the renovation project was generally successful, with delivered energy need decreasing by 40% and heating energy need decreasing by 50%. However, some key problems need to be solved to achieve full energy efficiency potential of the renovation works. Those critical problems are the performance (thermal comfort, heat recovery) of ventilation systems, thermal bridges of external wall/window jamb and economic viability. Currently, a major renovation is not economically viable, therefore financial assistance to the apartment owners' associations is required to encourage them to undertake major renovations.

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Energy and investment intensity of integrated renovation and 2030 cost optimal savings

Kurnitski

Kuusk

Tark

et al. 2014

Energy and Buildings

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Impact of Linear Thermal Bridges on Thermal Transmittance of Renovated Apartment Buildings

Ilomets

Kuusk

Paap

et al. 2016

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Renovation of old apartment buildings is a topic of current research interest throughout the Eastern Europe region where similar typology is derived from the period of 1960–1990. Thermal bridges, essential components of the transmission heat loss of a building, have to be properly evaluated in the energy audit during current state-of-the-art situation as well as in the comparison of renovation solutions. Resulting from field measurements and calculations, we propose linear thermal transmittances Ψ of thermal bridges for four types of apartment buildings: prefabricated concrete large panel element, brick, wood (log), and autoclaved aerated concrete. Our results show that thermal bridges contribute 23% of the total transmission heat loss of a building envelope before renovation. After renovation thermal bridges account for only 10% if windows are repositioned into additional external thermal insulation and balconies are rebuilt as best practice. Inversely, impact of the thermal bridges might be up to 34%, depending on the wall insulation thickness. We have also found that the relative percentage of thermal bridges after renovation increases and the negative impact of the thermal bridges of certain junctions cannot be compensated with thicker wall insulation. Results obtained in this paper are useful for energy audits.

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Retrofit cost-effectiveness: Estonian apartment buildings

Kuusk

Kalamees

2015

Building Research & Information

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Kalle Kuusk

Cost effectiveness of energy performance improvements in Estonian brick apartment buildings

Case-Study Analysis of Concrete Large-Panel Apartment Building at Pre- And Post Low-Budget Energy-Renovation

Energy and investment intensity of integrated renovation and 2030 cost optimal savings

Impact of Linear Thermal Bridges on Thermal Transmittance of Renovated Apartment Buildings

Retrofit cost-effectiveness: Estonian apartment buildings

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