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Towards Optimal Design of Energy Efficient Buildings

Gajewski R.R. / Kułakowski T.

Buildings consume half of all energy use and are also responsible for a similar proportion of carbon dioxide emission. The heat transfer across the building envelope - the shell of a house that separates the inside and outside - should generally be minimized. In the paper validation and verification based on Building Energy Simulation Test (BESTEST) of Energy3D computer code is presented. Next, computations performed by means of Energy 3D and Energy Plus for BESTEST building are compared. In the last part of the paper results for computations for real building are presented. Program Energy 3D proved to be an excellent tool for qualitative and quantitative analysis of buildings with respect to energy consumption.

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Towards Optimal Design of Energy Efficient Buildings

Gajewski R.R. / Kułakowski T.

Buildings consume half of all energy use and are also responsible for a similar proportion of carbon dioxide emission. The heat transfer across the building envelope - the shell of a house that separates the inside and outside - should generally be minimized. In the paper validation and verification based on Building Energy Simulation Test (BESTEST) of Energy3D computer code is presented. Next, computations performed by means of Energy 3D and Energy Plus for BESTEST building are compared. In the last part of the paper results for computations for real building are presented. Program Energy 3D proved to be an excellent tool for qualitative and quantitative analysis of buildings with respect to energy consumption.

Towards Optimal Design of Energy Efficient Buildings

Gajewski R.R. / Kułakowski T.

Buildings consume half of all energy use and are also responsible for a similar proportion of carbon dioxide emission. The heat transfer across the building envelope - the shell of a house that separates the inside and outside - should generally be minimized. In the paper validation and verification based on Building Energy Simulation Test (BESTEST) of Energy3D computer code is presented. Next, computations performed by means of Energy 3D and Energy Plus for BESTEST building are compared. In the last part of the paper results for computations for real building are presented. Program Energy 3D proved to be an excellent tool for qualitative and quantitative analysis of buildings with respect to energy consumption.

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Title:

Towards Optimal Design of Energy Efficient Buildings

Contributors:

Gajewski R.R. (author) / Kułakowski T. (author)

Published in:

Archives of Civil Engineering, Vol 64, Iss 4, Pp 135-153 (2018)

Publication date:

2018

ISSN:

DOI:

https://doi.org/10.2478/ace-2018-0067

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

energy efficient buildings , simulation , verification , validation , FEM , FVM , FDM , Engineering (General). Civil engineering (General) , TA1-2040

Metadata by DOAJ is licensed under CC BY-SA 1.0

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