Abstract
As the climate changed in recent years, an increase in summer indoor temperatures in severe cold and cold regions of China has started to affect thermal comfort. However, the local design standard for energy efficiency does not recognize this phenomenon. This paper reports the potential overheating phenomenon in residential buildings and examines the rationale for the current thermal designs adopted in severe cold and cold regions of China. In this study, the two most commonly used building materials, reinforced concrete (RC) and cross laminated timber (CLT), are used separately in the design of an 18-story residential building envelope located in six different cities in the severe cold and cold regions. The energy consumption and indoor operative temperatures during the operation of these buildings are simulated using Integrated Environmental Solutions Virtual Environment (IES VE). The results demonstrate that both the RC and the CLT buildings experience varying degrees of overheating in any climate subregion. The CLT buildings have longer overheating hours compared to the RC buildings, especially in the cold regions. The results also indicate that for apartments on higher stories, the cooling energy consumption and indoor temperature also increase gradually. The research results suggest that the local design standard for energy efficiency needs to be adjusted by adding thermal design methods for summer to reduce the periods of overheating.
Highlights
It is estimated that the average temperature could increase by 1.1 to 5.4 ◦ C in 2100 according to a report by the National Oceanic and Atmospheric Administration (NOAA) [1]
Climate change raises the temperature of the northern hemisphere in summer, and China is located in this hemisphere, facing
This paper considers the operative temperature in summer for reinforced concrete (RC) and cross laminated timber (CLT) residential buildings and addresses the following questions: (1) How serious is the potential overheating phenomenon in summer in the severe cold and cold regions in China? (2) Do the higher floors of residential buildings
Summary
Climate change is one of the great challenges the world is facing today. In 2019, the average temperature across global land and ocean surfaces was 14.85 ◦ C, an increase of 0.95 ◦ C over the twentieth century, making 2019 the second warmest year on record. Announced that land regions should experience more severe increases than the ocean regions, and indicated that the warming trend in the northern hemisphere was more significant from 2006–2015. The Intergovernmental Panel on Climate Change (IPCC) announced that land regions should experience more severe increases than the ocean regions, and indicated that the warming trend in the northern hemisphere was more significant. Climate change raises the temperature of the northern hemisphere in summer, and China is located in this hemisphere, facing [3], especially inlatitudes. Temperature of theofnorthern hemisphere in summer, China is located in thisclimate hemisphere, Overheating has challenge been observed in many in countries in China the northern. Over people died in the UK during the occupants, with a particular bearing on the quality of sleep that leads to reduced productivity [10,11,12].
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