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POSSIBILITY OF CHOICES INDUSTRIAL HALL OBJECT RECONSTRUCTION
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Biao Y ., et al. Influence of user behavior on unsatisfactory indoor thermal environment, Energy Conversion and Management Volume 86, 2014, Pages 1–7
Bagoňa, M. et al. Measurements of Electricity Consumption In a Low-energy Building in Mid-Europe Climatic Conditions, in: Energy Engineering 2014.
Katunská, J. et al. Diagnosis of elected industrial hall object and idea for its reconstruction, Advanced Materials Research, Vol. 1057 (2014), p. 19 -26
Katunská, J. et al. Diagnostic of a Selected Industrial Building and Design for its Thermal Refurbishment, Selected Scientific Paper / Journal of Civil Engineering, Vol.3, 1-2008, pgs 37- 44.
Katunská, J. et al. Evaluation of the quality of the internal microclima te in large industrial halls, International Journal for Restoration of Buildings and Monuments. Vol. 8, No. 4 (2002), p. 371-378. op.1/ op.2/ op.3/ op.4/ E1 glass wall Roof wall beams Annual energy savings of the hall after reconstruction [% ] Options Structures 1 2 3 4 Glass wall 68,6 68,6 52,8 0 Roof 21,5 0 21,5 21,5 Brickwork 17,2 17,2 17,2 0 Beams 40,5 40,5 40,5 0 E1 47,2 39,9 37,4 6,4 International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific Conferences SGEM2015
Katunský, D. et al. Analysis of thermal energy demand and saving in industrial buildings: A case study in Slovakia. Building and Environment, 2013, Vol. 67, p. 138-146.
Katunský, D. et al. Evaluation of energy consumption for heating of industrial building in-situ. Engineering, 2011, 3, p. 470-477
Katunský, D. et al. Numerical Analysis and Measurement Results of a Window Sill, Advanced Materials Research, Vol. 899 (2014), p. 85-88
Katunský, D. et al. Measuring Methodology and Results of Heat-Air-Moisture Performances at Building Envelope Levels , Advanced Materials Research, Vol. 649 (2013), p. 147-150
Katunský, D., Lopušniak, M. Impact of shading structure on energy demand and on risk of summer overheating in a low energy building. Energy Procedia, 2012, 14: 1311-1316.
Katunský, D. et al. Simulations and measurements in industrial building research. Journal of Theoretical and Applied Information Technology, 2012, p. 44.1.
Lopušniak, M. Katunský, D. Interaction of selected parameters within design of suitable working environment in: Healthy Buildings. 2006. p. 147-152. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Biao Y ., et al. Influence of user behavior on unsatisfactory indoor thermal environment, Energy Conversion and Management Volume 86, 2014, Pages 1–7
Bagoňa, M. et al. Measurements of Electricity Consumption In a Low-energy Building in Mid-Europe Climatic Conditions, in: Energy Engineering 2014.
Katunská, J. et al. Diagnosis of elected industrial hall object and idea for its reconstruction, Advanced Materials Research, Vol. 1057 (2014), p. 19 -26
Katunská, J. et al. Diagnostic of a Selected Industrial Building and Design for its Thermal Refurbishment, Selected Scientific Paper / Journal of Civil Engineering, Vol.3, 1-2008, pgs 37- 44.
Katunská, J. et al. Evaluation of the quality of the internal microclima te in large industrial halls, International Journal for Restoration of Buildings and Monuments. Vol. 8, No. 4 (2002), p. 371-378. op.1/ op.2/ op.3/ op.4/ E1 glass wall Roof wall beams Annual energy savings of the hall after reconstruction [% ] Options Structures 1 2 3 4 Glass wall 68,6 68,6 52,8 0 Roof 21,5 0 21,5 21,5 Brickwork 17,2 17,2 17,2 0 Beams 40,5 40,5 40,5 0 E1 47,2 39,9 37,4 6,4 International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org 15th International Multidisciplinary Scientific Conferences SGEM2015
Katunský, D. et al. Analysis of thermal energy demand and saving in industrial buildings: A case study in Slovakia. Building and Environment, 2013, Vol. 67, p. 138-146.
Katunský, D. et al. Evaluation of energy consumption for heating of industrial building in-situ. Engineering, 2011, 3, p. 470-477
Katunský, D. et al. Numerical Analysis and Measurement Results of a Window Sill, Advanced Materials Research, Vol. 899 (2014), p. 85-88
Katunský, D. et al. Measuring Methodology and Results of Heat-Air-Moisture Performances at Building Envelope Levels , Advanced Materials Research, Vol. 649 (2013), p. 147-150
Katunský, D., Lopušniak, M. Impact of shading structure on energy demand and on risk of summer overheating in a low energy building. Energy Procedia, 2012, 14: 1311-1316.
Katunský, D. et al. Simulations and measurements in industrial building research. Journal of Theoretical and Applied Information Technology, 2012, p. 44.1.
Lopušniak, M. Katunský, D. Interaction of selected parameters within design of suitable working environment in: Healthy Buildings. 2006. p. 147-152. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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