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A platform for research: civil engineering, architecture and urbanism
Disaggregating categories of electrical energy end-use from whole-house hourly data
Highlights ► Method developed to disaggregate total hourly household electrical load into categories. ► Method tested on sub-metered households to check results against known values. ► Method used on a large data set of smart meter data, and range of results shown. ► Possible uses of method for targeting of utility DSM programs are discussed.
Abstract The residential sector uses nearly 30% of all electricity in Canada, and, it is important to know how this energy is being used, so that savings may be identified and realised. We propose a method that can be applied to hourly whole-house electrical energy data to partially disaggregate total household electricity use into five load categories/parameters (base load, activity load, heating season gradient, cooling season gradient and lowest external temperature at which air-conditioning is used). This paper develops the proposed method, and verifies it using high-resolution end-use data from twelve households with known characteristics. We then apply the method to hourly whole-house (smart meter) data from 327 households in Ontario. The roll-out of smart (advanced) metering infrastructure in many countries will make hourly whole-house data abundant, and we propose that this method could be widely applied by utilities to target their demand-side management programs towards households more likely to provide benefits, thus increasing the cost-effectiveness of such programs.
Disaggregating categories of electrical energy end-use from whole-house hourly data
Highlights ► Method developed to disaggregate total hourly household electrical load into categories. ► Method tested on sub-metered households to check results against known values. ► Method used on a large data set of smart meter data, and range of results shown. ► Possible uses of method for targeting of utility DSM programs are discussed.
Abstract The residential sector uses nearly 30% of all electricity in Canada, and, it is important to know how this energy is being used, so that savings may be identified and realised. We propose a method that can be applied to hourly whole-house electrical energy data to partially disaggregate total household electricity use into five load categories/parameters (base load, activity load, heating season gradient, cooling season gradient and lowest external temperature at which air-conditioning is used). This paper develops the proposed method, and verifies it using high-resolution end-use data from twelve households with known characteristics. We then apply the method to hourly whole-house (smart meter) data from 327 households in Ontario. The roll-out of smart (advanced) metering infrastructure in many countries will make hourly whole-house data abundant, and we propose that this method could be widely applied by utilities to target their demand-side management programs towards households more likely to provide benefits, thus increasing the cost-effectiveness of such programs.
Disaggregating categories of electrical energy end-use from whole-house hourly data
Birt, Benjamin J. (author) / Newsham, Guy R. (author) / Beausoleil-Morrison, Ian (author) / Armstrong, Marianne M. (author) / Saldanha, Neil (author) / Rowlands, Ian H. (author)
Energy and Buildings ; 50 ; 93-102
2012-03-12
10 pages
Article (Journal)
Electronic Resource
English
Disaggregating categories of electrical energy end-use from whole-house hourly data
| Online Contents | 2012