Energy saving effect and mechanism of cooling setting temperature increased by 1 °C for residential buildings in different cities
•The same building geometries and the same thermal properties of building envelope for different seven climatic cities were assumed.•Energy conservation effect including saving amount and saving ratio were discussed annually and monthly among seven cities.•The inner mechanism of the difference was r...
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| Published in: | Energy and buildings Vol. 202; p. 109335 |
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| Format: | Journal Article |
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| Abstract | •The same building geometries and the same thermal properties of building envelope for different seven climatic cities were assumed.•Energy conservation effect including saving amount and saving ratio were discussed annually and monthly among seven cities.•The inner mechanism of the difference was revealed from the hourly and daily perspectives through two extremely contrast climatic cities.•Guidance and reference were provided for both standard determination and behavioral energy saving for air conditioning systems.
Indoor setting temperature is a key controllable parameter by users, highly impacting the total cooling energy usage. In this paper, the hourly cooling load of residential buildings is simulated for seven cities respectively when the cooling setting temperature (CST) increases by 1 °C, and the dissimilarity and internal mechanism of the energy saving effect are discussed and revealed from the hourly and daily perspectives through two extremely contrast climatic cities. The results show that although the higher yearly energy saving amount (ESA) can appear in a hotter city, energy saving effect is all significant in different cities. The ESA in hotter months of hotter cities may not be higher than that in the corresponding months of cooler cities, and the hotter cities have more obvious platform features while the cooler cities have single peak features, and the peak value is much higher than the plateau value. The yearly cooling saving ratio (CSR) is higher in cooler cities because CSR depends on both the hourly CSR and its weightiness, and the proportion of the higher ratio hours in cool cities is larger. This study can provide references for both standard determination and behavioral energy saving for air conditioning systems. |
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| AbstractList | •The same building geometries and the same thermal properties of building envelope for different seven climatic cities were assumed.•Energy conservation effect including saving amount and saving ratio were discussed annually and monthly among seven cities.•The inner mechanism of the difference was revealed from the hourly and daily perspectives through two extremely contrast climatic cities.•Guidance and reference were provided for both standard determination and behavioral energy saving for air conditioning systems.
Indoor setting temperature is a key controllable parameter by users, highly impacting the total cooling energy usage. In this paper, the hourly cooling load of residential buildings is simulated for seven cities respectively when the cooling setting temperature (CST) increases by 1 °C, and the dissimilarity and internal mechanism of the energy saving effect are discussed and revealed from the hourly and daily perspectives through two extremely contrast climatic cities. The results show that although the higher yearly energy saving amount (ESA) can appear in a hotter city, energy saving effect is all significant in different cities. The ESA in hotter months of hotter cities may not be higher than that in the corresponding months of cooler cities, and the hotter cities have more obvious platform features while the cooler cities have single peak features, and the peak value is much higher than the plateau value. The yearly cooling saving ratio (CSR) is higher in cooler cities because CSR depends on both the hourly CSR and its weightiness, and the proportion of the higher ratio hours in cool cities is larger. This study can provide references for both standard determination and behavioral energy saving for air conditioning systems. Indoor setting temperature is a key controllable parameter by users, highly impacting the total cooling energy usage. In this paper, the hourly cooling load of residential buildings is simulated for seven cities respectively when the cooling setting temperature (CST) increases by 1°C, and the dissimilarity and internal mechanism of the energy saving effect are discussed and revealed from the hourly and daily perspectives through two extremely contrast climatic cities. The results show that although the higher yearly energy saving amount (ESA) can appear in a hotter city, energy saving effect is all significant in different cities. The ESA in hotter months of hotter cities may not be higher than that in the corresponding months of cooler cities, and the hotter cities have more obvious platform features while the cooler cities have single peak features, and the peak value is much higher than the plateau value. The yearly cooling saving ratio (CSR) is higher in cooler cities because CSR depends on both the hourly CSR and its weightiness, and the proportion of the higher ratio hours in cool cities is larger. This study can provide references for both standard determination and behavioral energy saving for air conditioning systems. |
| ArticleNumber | 109335 |
| Author | Guo, Shurui Zhang, Yin Yang, Hanyu Long, Enshen Li, Yanru |
| Author_xml | – sequence: 1 givenname: Shurui surname: Guo fullname: Guo, Shurui – sequence: 2 givenname: Hanyu surname: Yang fullname: Yang, Hanyu – sequence: 3 givenname: Yanru surname: Li fullname: Li, Yanru – sequence: 4 givenname: Yin surname: Zhang fullname: Zhang, Yin – sequence: 5 givenname: Enshen surname: Long fullname: Long, Enshen email: longes2@163.com |
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| Cites_doi | 10.1016/j.enbuild.2016.08.001 10.1016/j.enbuild.2018.09.036 10.1016/j.enbuild.2007.04.022 10.1016/j.enbuild.2018.10.042 |
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| Snippet | •The same building geometries and the same thermal properties of building envelope for different seven climatic cities were assumed.•Energy conservation effect... Indoor setting temperature is a key controllable parameter by users, highly impacting the total cooling energy usage. In this paper, the hourly cooling load of... |
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| SubjectTerms | Air conditioners Air conditioning Building energy saving Characteristic temperature method Cities Cooling Cooling energy consumption simulation Cooling loads Energy Energy conservation Energy consumption Energy usage Housing Residential areas Residential buildings Setting temperature increase Temperature |
| Title | Energy saving effect and mechanism of cooling setting temperature increased by 1 °C for residential buildings in different cities |
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