Research on Annual Thermal Environment of Non-Hvac Building Regulated by Window-to-Wall Ratio in a Chinese City (Chenzhou)

Li, Jiayu; Zheng, Bohong; Chen, Xiao; Zhou, Yihua; Rao, J.; Bedra, Komi Bernard

doi:10.3390/su12166637

Cited by 10 publications

(5 citation statements)

References 37 publications

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“…By thickening high-quality insulation materials (such as graphite extruded polystyrene board) to improve the thermal insulation capacity of the building envelope, reduce the cooling and heating load of the building, reduce the use of air conditioning and heating, reduce energy consumption and improve the comfort of space use. The building adopts an overall plate layout that conforms to the climate characteristics of hot summer and cold winter areas, the main body faces south, the plane bay is large and deep, the natural lighting is good, the indoor lighting pressure is reduced, and the interior decoration materials are taken to reduce glare [3]. And the dominant wind direction of natural ventilation is used to adjust the indoor environment.…”

Section: Green Technical Meansmentioning

confidence: 99%

Office Building Design Based on Light Environment and Energy Consumption Analysis – Taking Hefei as an Example

Ding,

Ma,

Guan

2023

Advances in Transdisciplinary Engineering

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In architectural design, a good design scheme can reduce the energy consumption of the building itself and have comfortable natural lighting, at the same time. Taking the design of an office building in Hefei area as an example, the light environment and building energy consumption are analyzed. The light environment and building energy consumption are comprehensively considered to design a building with good light environment and low energy consumption. This paper analyzes its influence on energy consumption and natural lighting in the building from the perspectives of the thickness of external wall insulation materials, the thickness of roof insulation materials, the vertical distance between horizontal sunshade and window, the depth of horizontal sunshade, the height of windowsill and the type of glass. The optimization scheme of specific parameters is also proposed. It is hoped that the results of this study will provide reference value for other architectural designs in Hefei area.

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Section: Green Technical Meansmentioning

confidence: 99%

Office Building Design Based on Light Environment and Energy Consumption Analysis – Taking Hefei as an Example

Ding,

Ma,

Guan

2023

Advances in Transdisciplinary Engineering

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“…This study was conducted in Chenzhou, Hunan province, China. Chenzhou is located in the south of China's hot summer and cold winter climate zone, receiving strong shortwave radiation [34]. In addition, Chenzhou is located at the northern foot of the Nanling Mountain of China, which blocks the cold air from the north in winter [35].…”

Section: Analytical Scenariosmentioning

confidence: 99%

Evaluating the Effects of Roof Greening on the Indoor Thermal Environment throughout the Year in a Chinese City (Chenzhou)

Zheng

Chen

et al. 2022

Forests

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Indoor cooling is preferred during hot summers but unappreciated in cold winters. With this research, we aimed to clarify the cooling performances of roof greening throughout the year and identify the optimum roof greening coverage for the indoor thermal environment in Chenzhou, a city in China with hot summers and cold winters. The layout of buildings, building materials, and local climate data of Chenzhou were collected. The ENVI-met model was applied as the analytical tool after its accuracy was confirmed by a field experiment. The Kriging model was employed to interpret the annual effects of roof greening. The analytical results revealed that in Chenzhou, roof greening reduced indoor temperatures throughout the year, and the higher the coverage of roof greening, the greater the performance of indoor cooling. Moreover, hot climates enhanced the indoor cooling performances of roof greening. From the view of annual thermal perception, the increase in roof greening coverage reduced the duration of warm perceptions throughout the year and extended the perceptions of slightly warm, slightly cool, and cool. Generally, increased roof greening coverage improved the indoor thermal perception in Chenzhou throughout the year. The ENVI-met + Kriging model, an evaluation method of annual cycles, can be used to evaluate the annual performance of roof greening in terms of indoor thermal environment in other climate zones.

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“…Therefore, this model explored the changes of an indoor thermal environment during the transformation from ground greening to vertical greening when the total greening area was fixed. Considering the mean window-to-wall ratios of Changsha, we adopted a 20% window-to-wall ratio in this research [38]. The research model covered an area of 7744 m 2 and was composed of 22 × 22 grids.…”

Section: Analytical Scenariosmentioning

confidence: 99%

Does Vertical Greening Really Play Such a Big Role in an Indoor Thermal Environment?

Zheng

2022

Forests

Self Cite

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Little attention has been paid to indoor cooling compared with the surface cooling of vertical greening. The few studies on the indoor cooling of vertical greening are almost all conducted in a hot climate area with windowless building models, which is suspected to exaggerate the role of vertical greening in an indoor thermal environment. Through two improvements, this paper explored the realistic impact of vertical greening on an indoor thermal environment. First, we built models according to the actual window-to-wall ratio rather than a fictitious model without windows. Second, an annual cycle evaluation, considering both hot summer and cold winter, was used to replace the typical hot day. With the support of Envi-met and Kriging models, the results revealed that the existing research not only exaggerated vertical greening’s positive effects on an indoor thermal environment in hot seasons but also ignored its potential harms to thermal perception in cold seasons. These exaggerated results could easily cause the abuse of vertical greening in cities. In actual windowed buildings, the role of vertical greening in indoor temperatures is not always positive, and the positive effect is not as strong as previous studies suggest.

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Research on Annual Thermal Environment of Non-Hvac Building Regulated by Window-to-Wall Ratio in a Chinese City (Chenzhou)

Cited by 10 publications

References 37 publications

Office Building Design Based on Light Environment and Energy Consumption Analysis – Taking Hefei as an Example

Office Building Design Based on Light Environment and Energy Consumption Analysis – Taking Hefei as an Example

Evaluating the Effects of Roof Greening on the Indoor Thermal Environment throughout the Year in a Chinese City (Chenzhou)

Does Vertical Greening Really Play Such a Big Role in an Indoor Thermal Environment?

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