THERMAL SCIENCE
International Scientific Journal
APPLICATION OF THE DOUBLE SKIN FAçADE IN REHABILITATION OF THE INDUSTRIAL BUILDINGS IN SERBIA
ABSTRACT
This study aims to check the various possibilities of application of the double layer of the façade in the rehabilitation of industrial facilities in Serbia, with the aim of improving the energy performance of buildings and energy savings for heating and cooling. Industrial facility of Raska textile factory in city of Novi Pazar, Serbia, was taken as a model for this study. This facility needs to be adapted into the building for administrative purposes. Using the existing structural system of the building, the existing shell and infrastructure of the building, the scheme of future business functional areas of the building have been proposed, which defines the thermal zones in the building. The paper examined various modalities of double layer on the east and west façades of the building, adding a curtain wall with single glass as the outer membrane. The results of the energy characteristics of the proposed rehabilitation of the building were obtained using a computer simulation program EnergyPlus and software DesignBuilder, based on climatic parameters of Serbia and the parameters of necessary thermal comfort defined by the Regulations on energy efficiency in buildings and in accordance with standard EN 15251. The criteria on the basis of which the valorization of improving the energy efficiency of the building would be performed are the thermal comfort, the required amount of energy for heating and cooling the facility and reduction of CO2 emission.
KEYWORDS
PAPER SUBMITTED: 2016-05-16
PAPER REVISED: 2016-06-27
PAPER ACCEPTED: 2016-05-05
PUBLISHED ONLINE: 2016-08-07
THERMAL SCIENCE YEAR
2017, VOLUME
21, ISSUE
Issue 6, PAGES [2945 - 2955]
- Directive 2010/31/EU оf the European Parliament and оf the Council on the energy performance of buildings - EPBD. (2010). Official Journal of the European Union, 153, 13-35.
- Pucar, M. (2013). Energetski aspekti razvoja naselja i klimatske promene - stanje, mogućnosti, strategije i zakonska regulativa u Srbiji. U Pucar, М., Dimitrijević, B., Marić, I. (Ur.). Klimatske promene i građena sredina - politika i praksa u Škotskoj i Srbiji (57-108). Мonografija br 70. Beograd: Institut za arhitekturu i urbanizam Srbije.
- Harmati, N., et al., Energy performance modelling and heat recovery unit efficiency assessment of an office building, Thermal Science, 19 (2015), Suppl. 3, pp. S865-S880
- Andjelković, A. S. et al., The Development of simple calculation model for energy performance of double skin facades, Thermal Science, 16 (2015), Suppl. 1, pp. S251-S267
- Baldinelli, G., Double skin façades for warm climate regions: Analysis of a solution with an integrated movable shading system, Building and Environment, 44 (2009), pp. 1107-1118
- Perez-Grande, I. et al., Influence of glass properties on the performance of double-glazed facades, Applied Thermal Engineering, 25 (2005), pp. 3163-3175
- Gratia, E. et al., The most efficient position of shading devices in a double-skin façade, Energy and Buildings, 39 (2007), pp. 364-373
- Vujošević, M., Popović, M., The comparison of the energy performance of hotel buildings using PROMETHEE decision-making method, Thermal Science, 20 (2016), 1, pp. 197-208
- Orosa, J., A., Oliveira, A., C., Indoor Air Standards and Models,in: Passive Methods as a Solution for Improving Indoor Environments, Green Energy and Technology. Springer, 2012
- Žana, S. et al., CFD simulations of thermal comfort in naturally ventilated primary school classroom, Thermal Science, doi:10.2298/TSCI150414171S
- Ignjatović, M. G., et al., Influence of Different Glazing Types and Ventilation Principles in Double Skin Façades on Delivered Heating and Cooling Energy During Heating Season in an Office Building, Thermal Science, 16 (2012), Suppl. 2, pp. S461-S469
- Ballestini, G., Possibilities and limitations of natural ventilation in restored industrial archaeology buildings with a double-skin facade in Mediterranean climates, Building and Environment, 40 (2005) pp. 983-995
- Auer, T. et al., Facades Principles of Construction, Berlin, Medialis, 2007
- European committee for standardization: European standard EN 13947 - Thermal performance of curtain wall - Calculation of thermal transmittance, 2006
- European committee for standardization: European standard EN 15251 - Indoor environmental input parameters for design and assessment of energy performance of buildings addressing indoor air quality, thermal environment, lighting and acoustics, 2006
- Pravilnik o energetskoj efikasnosti zgrada. In Serbian, Official Gazette RS, No 61/2011.
- Energy Plus 2014: apps1.eere.energy.gov/buildings/energyplus
- Design Builder 2015: www.designbuilder.co.uk
- Crawley, D., Hand, J., Kummert, M., Griffith, B. (2005). Contrasting the capabilities of building energy performance simulation programs. Washington: US Department of Energy, University of Strathclyde, University of Wisconsin, National Renewable Energy Laboratory.
- Andjelković, A., Modeliranje energetskih karakteristika dvostrukih ventilisanih fasada, Ph. D. thesis, Faculty of Technical Science, University of Novi Sad, Serbia, 2015
- Shi, S., et al., Deposition velocity of fine and ultrafine particles onto manikin surfaces in indoor environment of different facial air speeds, Building and Environment, 81 (2014) pp. 388-395
- Istorijski arhiv Ras. Projektna dokumentacija Konfekcijske hale TK "Raška". (1965). Novi Pazar.
- Pravilnik o uslovima i načinu izdavanja sertifikata o energetskim svojstvima zgrada. In Serbian, Official Gazette RS, No 61/2011.
