Linking residential electricity consumption and outdoor climate in a tropical city

The link between climate and energy consumption has been widely established in many cities. The residential electricity consumption majorly for space conditioning is especially responsive to the outdoor climate. As a hot and humid tropical city, Singapore is expected to see increasing residential el...

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Published inEnergy (Oxford) Vol. 157; pp. 734 - 743
Main Author Li, Xian-Xiang
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 15.08.2018
Elsevier BV
Subjects
Building energy consumption
cities
climate
Climate change
Electric appliances
electric energy consumption
Electricity
Electricity consumption
Electricity energy
energy
Energy conservation
Energy consumption
Global climate
Household appliances
Households
Multiple regression analysis
ownership
Regression analysis
Residential energy
Singapore
temperature
Singapore
Climate change
Electricity energy
Regression analysis
Building energy consumption
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Abstract The link between climate and energy consumption has been widely established in many cities. The residential electricity consumption majorly for space conditioning is especially responsive to the outdoor climate. As a hot and humid tropical city, Singapore is expected to see increasing residential electricity consumption with global climate change. In this study, a multiple regression analysis is performed to relate the residential electricity consumption per capita and per household with outdoor climate during a 12-year period (2005–2016). The per-capita electricity consumption during 2008–2016 sees substantial decrease from that during 2005–2007, possibly due to the various energy saving measures taken by Singapore government. The different responses to outdoor climate variation in different household types are examined. It is found that generally dwellers in public households are more sensitive to outdoor climate variations, while private household occupants are not much affected by climate. Due to increasing ownership of electricity-consuming appliances in 1–2 Room and 3 Room public households, their electricity consumptions show a consistent increasing trend during the period studied. Under the worst scenario of projected future temperature increase, the per-capita and per-household electricity consumptions are projected to increase by 47% and 41%, respectively. •A multiple regression analysis is performed on residential electricity consumption.•The link between residential electricity consumption and climate is established.•Different households respond differently to climate variations.•Increasing appliance ownership can offset energy-conserving efforts.•Future increase of electricity consumption can be 47% under worst climate change scenario.
AbstractList The link between climate and energy consumption has been widely established in many cities. The residential electricity consumption majorly for space conditioning is especially responsive to the outdoor climate. As a hot and humid tropical city, Singapore is expected to see increasing residential electricity consumption with global climate change. In this study, a multiple regression analysis is performed to relate the residential electricity consumption per capita and per household with outdoor climate during a 12-year period (2005–2016). The per-capita electricity consumption during 2008–2016 sees substantial decrease from that during 2005–2007, possibly due to the various energy saving measures taken by Singapore government. The different responses to outdoor climate variation in different household types are examined. It is found that generally dwellers in public households are more sensitive to outdoor climate variations, while private household occupants are not much affected by climate. Due to increasing ownership of electricity-consuming appliances in 1–2 Room and 3 Room public households, their electricity consumptions show a consistent increasing trend during the period studied. Under the worst scenario of projected future temperature increase, the per-capita and per-household electricity consumptions are projected to increase by 47% and 41%, respectively.
The link between climate and energy consumption has been widely established in many cities. The residential electricity consumption majorly for space conditioning is especially responsive to the outdoor climate. As a hot and humid tropical city, Singapore is expected to see increasing residential electricity consumption with global climate change. In this study, a multiple regression analysis is performed to relate the residential electricity consumption per capita and per household with outdoor climate during a 12-year period (2005–2016). The per-capita electricity consumption during 2008–2016 sees substantial decrease from that during 2005–2007, possibly due to the various energy saving measures taken by Singapore government. The different responses to outdoor climate variation in different household types are examined. It is found that generally dwellers in public households are more sensitive to outdoor climate variations, while private household occupants are not much affected by climate. Due to increasing ownership of electricity-consuming appliances in 1–2 Room and 3 Room public households, their electricity consumptions show a consistent increasing trend during the period studied. Under the worst scenario of projected future temperature increase, the per-capita and per-household electricity consumptions are projected to increase by 47% and 41%, respectively. •A multiple regression analysis is performed on residential electricity consumption.•The link between residential electricity consumption and climate is established.•Different households respond differently to climate variations.•Increasing appliance ownership can offset energy-conserving efforts.•Future increase of electricity consumption can be 47% under worst climate change scenario.
Author Li, Xian-Xiang
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Snippet The link between climate and energy consumption has been widely established in many cities. The residential electricity consumption majorly for space...
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SubjectTerms Building energy consumption
cities
climate
Climate change
Electric appliances
electric energy consumption
Electricity
Electricity consumption
Electricity energy
energy
Energy conservation
Energy consumption
Global climate
Household appliances
Households
Multiple regression analysis
ownership
Regression analysis
Residential energy
Singapore
temperature
Title Linking residential electricity consumption and outdoor climate in a tropical city
URI https://dx.doi.org/10.1016/j.energy.2018.05.192
https://www.proquest.com/docview/2111567371
https://www.proquest.com/docview/2101391155
Volume 157
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