The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia

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Izvoz citacije: ABNT
VIDRIH, Boris ;DOLINAR, Mojca ;MEDVED, Sašo .
The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia. 
Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 52, n.9, p. 568-586, august 2017. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/sl/article/the-connection-between-the-climate-change-model-and-a-buildings-thermal-response-model-a-case-of-slovenia/>. Date accessed: 17 sep. 2021. 
doi:http://dx.doi.org/.
Vidrih, B., Dolinar, M., & Medved, S.
(2006).
The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia.
Strojniški vestnik - Journal of Mechanical Engineering, 52(9), 568-586.
doi:http://dx.doi.org/
@article{.,
	author = {Boris  Vidrih and Mojca  Dolinar and Sašo  Medved},
	title = {The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {52},
	number = {9},
	year = {2006},
	keywords = {global climate change; numerical modelling; buildings thermal response; energy usage; Slovenia; },
	abstract = {The world's leading climatologists believe that global climate changes are inevitable. The basis for this is the fact that we are already facing climate changes that will become even more significant in the future. The impact of climate changes is and will be noticeable in all fields of human activity; therefore, it will also influence the supply and demand of energy. Since we are observing a longer period of time, comparable to the lifespan of a building, and the amount of energy demanded is an important factor, it is necessary to adjust the building and the renovation of buildings to the predicted climate changes. The prediction of a building's thermal response is the basis for the integral planning of the building and building services installation with which we create suitable living conditions. In order to predict the expected changes in the building's thermal response in the future it is necessary to correct the available meteorological variable databases today. In this paper we present various climate-change scenaria expected for Slovenia and the methods for correcting the starting points of the local meteorological databases. For the correction we used simplified mathematical models with which we - by forming test reference years (TRYs) - elaborate corrected test reference years (CTRYs). The latter are used for declaring the changes in Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 UDK - UDC 551.583:699.86:620.92(497.4) Pregledni znanstveni èlanek - Preview scientific paper (1.02) Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 Povezava modela podnebnih sprememb - The Connection Between the Climate Change Model 569 energy demand in buildings and the effectiveness of a chosen building services installation that uses natural energy sources. As regards the predicted climate scenaria for the continental part of Slovenia, the energy use for heating buildings will be reduced by 1.5% to 31.4%. These climate changes will have a substantial influence on the thermal comfort in buildings during the summer. In the heavyweight and naturally ventilated residential buildings that are currently thermally comfortable, suitable summer temperatures will be exceeded during 20% to 33% of the summer. The effectiveness of natural and passive cooling techniques will radically change. In cooled buildings we can expect a 2-to-40-fold increase in the use of final (end-use) cooling energy when compared to today. The results presented in this paper confirm the fact that it is necessary to evaluate the consequences of global climate changes also from the point of view of energy use in buildings, their construction and building services installations.},
	issn = {0039-2480},	pages = {568-586},	doi = {},
	url = {https://www.sv-jme.eu/sl/article/the-connection-between-the-climate-change-model-and-a-buildings-thermal-response-model-a-case-of-slovenia/}
}
Vidrih, B.,Dolinar, M.,Medved, S.
2006 August 52. The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 52:9
%A Vidrih, Boris 
%A Dolinar, Mojca 
%A Medved, Sašo 
%D 2006
%T The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia
%B 2006
%9 global climate change; numerical modelling; buildings thermal response; energy usage; Slovenia; 
%! The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia
%K global climate change; numerical modelling; buildings thermal response; energy usage; Slovenia; 
%X The world's leading climatologists believe that global climate changes are inevitable. The basis for this is the fact that we are already facing climate changes that will become even more significant in the future. The impact of climate changes is and will be noticeable in all fields of human activity; therefore, it will also influence the supply and demand of energy. Since we are observing a longer period of time, comparable to the lifespan of a building, and the amount of energy demanded is an important factor, it is necessary to adjust the building and the renovation of buildings to the predicted climate changes. The prediction of a building's thermal response is the basis for the integral planning of the building and building services installation with which we create suitable living conditions. In order to predict the expected changes in the building's thermal response in the future it is necessary to correct the available meteorological variable databases today. In this paper we present various climate-change scenaria expected for Slovenia and the methods for correcting the starting points of the local meteorological databases. For the correction we used simplified mathematical models with which we - by forming test reference years (TRYs) - elaborate corrected test reference years (CTRYs). The latter are used for declaring the changes in Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 UDK - UDC 551.583:699.86:620.92(497.4) Pregledni znanstveni èlanek - Preview scientific paper (1.02) Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 Povezava modela podnebnih sprememb - The Connection Between the Climate Change Model 569 energy demand in buildings and the effectiveness of a chosen building services installation that uses natural energy sources. As regards the predicted climate scenaria for the continental part of Slovenia, the energy use for heating buildings will be reduced by 1.5% to 31.4%. These climate changes will have a substantial influence on the thermal comfort in buildings during the summer. In the heavyweight and naturally ventilated residential buildings that are currently thermally comfortable, suitable summer temperatures will be exceeded during 20% to 33% of the summer. The effectiveness of natural and passive cooling techniques will radically change. In cooled buildings we can expect a 2-to-40-fold increase in the use of final (end-use) cooling energy when compared to today. The results presented in this paper confirm the fact that it is necessary to evaluate the consequences of global climate changes also from the point of view of energy use in buildings, their construction and building services installations.
%U https://www.sv-jme.eu/sl/article/the-connection-between-the-climate-change-model-and-a-buildings-thermal-response-model-a-case-of-slovenia/
%0 Journal Article
%R 
%& 568
%P 19
%J Strojniški vestnik - Journal of Mechanical Engineering
%V 52
%N 9
%@ 0039-2480
%8 2017-08-18
%7 2017-08-18
Vidrih, Boris, Mojca  Dolinar, & Sašo  Medved.
"The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia." Strojniški vestnik - Journal of Mechanical Engineering [Online], 52.9 (2006): 568-586. Web.  17 Sep. 2021
TY  - JOUR
AU  - Vidrih, Boris 
AU  - Dolinar, Mojca 
AU  - Medved, Sašo 
PY  - 2006
TI  - The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia
JF  - Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - global climate change; numerical modelling; buildings thermal response; energy usage; Slovenia; 
N2  - The world's leading climatologists believe that global climate changes are inevitable. The basis for this is the fact that we are already facing climate changes that will become even more significant in the future. The impact of climate changes is and will be noticeable in all fields of human activity; therefore, it will also influence the supply and demand of energy. Since we are observing a longer period of time, comparable to the lifespan of a building, and the amount of energy demanded is an important factor, it is necessary to adjust the building and the renovation of buildings to the predicted climate changes. The prediction of a building's thermal response is the basis for the integral planning of the building and building services installation with which we create suitable living conditions. In order to predict the expected changes in the building's thermal response in the future it is necessary to correct the available meteorological variable databases today. In this paper we present various climate-change scenaria expected for Slovenia and the methods for correcting the starting points of the local meteorological databases. For the correction we used simplified mathematical models with which we - by forming test reference years (TRYs) - elaborate corrected test reference years (CTRYs). The latter are used for declaring the changes in Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 UDK - UDC 551.583:699.86:620.92(497.4) Pregledni znanstveni èlanek - Preview scientific paper (1.02) Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 Povezava modela podnebnih sprememb - The Connection Between the Climate Change Model 569 energy demand in buildings and the effectiveness of a chosen building services installation that uses natural energy sources. As regards the predicted climate scenaria for the continental part of Slovenia, the energy use for heating buildings will be reduced by 1.5% to 31.4%. These climate changes will have a substantial influence on the thermal comfort in buildings during the summer. In the heavyweight and naturally ventilated residential buildings that are currently thermally comfortable, suitable summer temperatures will be exceeded during 20% to 33% of the summer. The effectiveness of natural and passive cooling techniques will radically change. In cooled buildings we can expect a 2-to-40-fold increase in the use of final (end-use) cooling energy when compared to today. The results presented in this paper confirm the fact that it is necessary to evaluate the consequences of global climate changes also from the point of view of energy use in buildings, their construction and building services installations.
UR  - https://www.sv-jme.eu/sl/article/the-connection-between-the-climate-change-model-and-a-buildings-thermal-response-model-a-case-of-slovenia/
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	author = {Vidrih, B., Dolinar, M., Medved, S.},
	title = {The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {52},
	number = {9},
	year = {2006},
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TY  - JOUR
AU  - Vidrih, Boris 
AU  - Dolinar, Mojca 
AU  - Medved, Sašo 
PY  - 2017/08/18
TI  - The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia
JF  - Strojniški vestnik - Journal of Mechanical Engineering; Vol 52, No 9 (2006): Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - global climate change, numerical modelling, buildings thermal response, energy usage, Slovenia, 
N2  - The world's leading climatologists believe that global climate changes are inevitable. The basis for this is the fact that we are already facing climate changes that will become even more significant in the future. The impact of climate changes is and will be noticeable in all fields of human activity; therefore, it will also influence the supply and demand of energy. Since we are observing a longer period of time, comparable to the lifespan of a building, and the amount of energy demanded is an important factor, it is necessary to adjust the building and the renovation of buildings to the predicted climate changes. The prediction of a building's thermal response is the basis for the integral planning of the building and building services installation with which we create suitable living conditions. In order to predict the expected changes in the building's thermal response in the future it is necessary to correct the available meteorological variable databases today. In this paper we present various climate-change scenaria expected for Slovenia and the methods for correcting the starting points of the local meteorological databases. For the correction we used simplified mathematical models with which we - by forming test reference years (TRYs) - elaborate corrected test reference years (CTRYs). The latter are used for declaring the changes in Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 UDK - UDC 551.583:699.86:620.92(497.4) Pregledni znanstveni èlanek - Preview scientific paper (1.02) Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 Povezava modela podnebnih sprememb - The Connection Between the Climate Change Model 569 energy demand in buildings and the effectiveness of a chosen building services installation that uses natural energy sources. As regards the predicted climate scenaria for the continental part of Slovenia, the energy use for heating buildings will be reduced by 1.5% to 31.4%. These climate changes will have a substantial influence on the thermal comfort in buildings during the summer. In the heavyweight and naturally ventilated residential buildings that are currently thermally comfortable, suitable summer temperatures will be exceeded during 20% to 33% of the summer. The effectiveness of natural and passive cooling techniques will radically change. In cooled buildings we can expect a 2-to-40-fold increase in the use of final (end-use) cooling energy when compared to today. The results presented in this paper confirm the fact that it is necessary to evaluate the consequences of global climate changes also from the point of view of energy use in buildings, their construction and building services installations.
UR  - https://www.sv-jme.eu/sl/article/the-connection-between-the-climate-change-model-and-a-buildings-thermal-response-model-a-case-of-slovenia/
Vidrih, Boris, Dolinar, Mojca, AND Medved, Sašo.
"The Connection Between the Climate Change Model and a Building’s Thermal Response Model: A Case of Slovenia" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 52 Number 9 (18 August 2017)

Avtorji

Inštitucije

  • Termo Ltd., Škofja Loka, Slovenia
  • The Environment Agency of RS, Ljubljana, Slovenia
  • University of Ljubljana, Faculty of Mechanical Engineering, Slovenia

Informacije o papirju

Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586

The world's leading climatologists believe that global climate changes are inevitable. The basis for this is the fact that we are already facing climate changes that will become even more significant in the future. The impact of climate changes is and will be noticeable in all fields of human activity; therefore, it will also influence the supply and demand of energy. Since we are observing a longer period of time, comparable to the lifespan of a building, and the amount of energy demanded is an important factor, it is necessary to adjust the building and the renovation of buildings to the predicted climate changes. The prediction of a building's thermal response is the basis for the integral planning of the building and building services installation with which we create suitable living conditions. In order to predict the expected changes in the building's thermal response in the future it is necessary to correct the available meteorological variable databases today. In this paper we present various climate-change scenaria expected for Slovenia and the methods for correcting the starting points of the local meteorological databases. For the correction we used simplified mathematical models with which we - by forming test reference years (TRYs) - elaborate corrected test reference years (CTRYs). The latter are used for declaring the changes in Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 UDK - UDC 551.583:699.86:620.92(497.4) Pregledni znanstveni èlanek - Preview scientific paper (1.02) Strojniški vestnik - Journal of Mechanical Engineering 52(2006)9, 568-586 Povezava modela podnebnih sprememb - The Connection Between the Climate Change Model 569 energy demand in buildings and the effectiveness of a chosen building services installation that uses natural energy sources. As regards the predicted climate scenaria for the continental part of Slovenia, the energy use for heating buildings will be reduced by 1.5% to 31.4%. These climate changes will have a substantial influence on the thermal comfort in buildings during the summer. In the heavyweight and naturally ventilated residential buildings that are currently thermally comfortable, suitable summer temperatures will be exceeded during 20% to 33% of the summer. The effectiveness of natural and passive cooling techniques will radically change. In cooled buildings we can expect a 2-to-40-fold increase in the use of final (end-use) cooling energy when compared to today. The results presented in this paper confirm the fact that it is necessary to evaluate the consequences of global climate changes also from the point of view of energy use in buildings, their construction and building services installations.

global climate change; numerical modelling; buildings thermal response; energy usage; Slovenia;