Zhijun Yang, Weijun Gao, Dandan Yang, Xiaotong Hu, Tao Xu
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引用次数: 0
摘要
为了应对中国南方室内霉菌的挑战,本研究设计并构建了一个创新的实验系统,以研究霉菌在多种因素共同影响下在建筑物中的生长情况。利用 Fluent 仿真(Ansys Fluent 19.0),我们设计了一个大小合适的实验箱,以真实再现温度、湿度和风速等因素对霉菌生长的影响。在建立和微调实验系统后,我们进行了两次初步实验,成功验证了设置的可行性。此外,我们还观察到,在 28 °C 和 80% 相对湿度的高温高湿环境中,实验箱内的霉菌生长速度随着进气风速的增加而增加。该实验系统将为今后研究中国南方建筑空间的室内霉菌生长奠定基础。
Impact of Air Velocity on Mold Growth in High Temperature and Humidity Conditions: An Experimental Approach
To address the challenges of indoor mold in southern China, this study designed and constructed an innovative experimental system to investigate mold growth in buildings under the combined influence of multiple factors. Using Fluent simulation (Ansys Fluent 19.0), we designed a suitably sized experimental chamber to realistically replicate the effects of factors such as temperature, humidity, and air velocity on mold growth. After establishing and fine-tuning the experimental system, we conducted two preliminary experiments, successfully validating the feasibility of our setup. Additionally, we observed that in a high-temperature, high-humidity environment of 28 °C and 80% relative humidity, the mold growth rate in the experimental chamber increased with the rise in inlet air velocity. This experimental system will serve as the foundation for future studies on indoor mold growth in building spaces in southern China.
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