Linear regression models for prediction of annual heating and cooling demand in representative Australian residential dwellings. (September 2017)
- Record Type:
- Journal Article
- Title:
- Linear regression models for prediction of annual heating and cooling demand in representative Australian residential dwellings. (September 2017)
- Main Title:
- Linear regression models for prediction of annual heating and cooling demand in representative Australian residential dwellings
- Authors:
- Aghdaei, Navid
Kokogiannakis, Georgios
Daly, Daniel
McCarthy, Timothy - Abstract:
- Abstract: This paper presents the development methodology of linear regression models that were developed for the prediction of annual thermal loads in representative residential buildings across three major climates in New South Wales, Australia, and the assessment of the impact of building envelope upgrades. A differential sensitivity analysis was undertaken for sixteen building envelope parameters, with six parameters being identified as significant. These six parameters were then explored using EnergyPlus simulation, and a number of linear regression models developed from the simulation outputs. Random values for design parameters were generated, and the results of EnergyPlus simulations using these parameters were used to verify the outputs of the regression models. The differences between regression-predicted and EnergyPlus-simulated annual thermal energy requirements were of order 10%-15%. The coefficient of determination (R 2 ) was over 0.90, indicating a good agreement between simulation and the regression models, and suggesting that the annual heating and cooling energy requirements can be forecasted with an acceptable accuracy using the regression models. It is envisaged that the regression models developed can be used as a quick alternative to building simulation for residential buildings of the area and the climate covered by our study, and can serve to rapidly estimate the likely energy savings/penalty during the retrofitting design stage when differentAbstract: This paper presents the development methodology of linear regression models that were developed for the prediction of annual thermal loads in representative residential buildings across three major climates in New South Wales, Australia, and the assessment of the impact of building envelope upgrades. A differential sensitivity analysis was undertaken for sixteen building envelope parameters, with six parameters being identified as significant. These six parameters were then explored using EnergyPlus simulation, and a number of linear regression models developed from the simulation outputs. Random values for design parameters were generated, and the results of EnergyPlus simulations using these parameters were used to verify the outputs of the regression models. The differences between regression-predicted and EnergyPlus-simulated annual thermal energy requirements were of order 10%-15%. The coefficient of determination (R 2 ) was over 0.90, indicating a good agreement between simulation and the regression models, and suggesting that the annual heating and cooling energy requirements can be forecasted with an acceptable accuracy using the regression models. It is envisaged that the regression models developed can be used as a quick alternative to building simulation for residential buildings of the area and the climate covered by our study, and can serve to rapidly estimate the likely energy savings/penalty during the retrofitting design stage when different building schemes and design concepts are being considered. … (more)
- Is Part Of:
- Energy procedia. Volume 121(2017)
- Journal:
- Energy procedia
- Issue:
- Volume 121(2017)
- Issue Display:
- Volume 121, Issue 2017 (2017)
- Year:
- 2017
- Volume:
- 121
- Issue:
- 2017
- Issue Sort Value:
- 2017-0121-2017-0000
- Page Start:
- 79
- Page End:
- 86
- Publication Date:
- 2017-09
- Subjects:
- Representative buildings types -- Differential sensitivity analysis -- Regression model
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333.7905 - Journal URLs:
- http://www.sciencedirect.com/science/journal/18766102 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.egypro.2017.07.482 ↗
- Languages:
- English
- ISSNs:
- 1876-6102
- Deposit Type:
- Legaldeposit
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