17 Papers
4 Citations
Dingmeng Wu is an academic researcher from Xi'an University of Architecture and Technology. The author has contributed to research in topics: Vortex & Ventilation (architecture). The author has an hindex of 2, co-authored 9 publications.
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Papers
On-site investigation of the concentration and size distribution characteristics of airborne fungi in a university library
TL;DR: Fundamental data on fungal contamination that can help experts in indoor air quality to develop guidelines for airborne fungi in libraries and create a safe environment for library patrons and staff are provided.
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Indoor airborne fungal levels in selected comprehensive compartments of the urban utility tunnel in Nanjing, Southeast China
Dingmeng Wu,Ying Zhang,Angui Li,Qiangqiang Kong,Yuefei Li,Shibin Geng,Xian Dong,Yanni Liu,Peng Chen +8 more
TL;DR: The concentration and composition of airborne fungi were investigated with a six-stage impact air microbe sampler and by combining culture and DNA analysis in three typical and representative comprehensive compartments of a utility tunnel in Nanjing.
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Analysis of microclimate characteristics in solar greenhouses under natural ventilation
TL;DR: In this article, the authors used three greenhouses in northwest China as research objects: one greenhouse with mature plants (GH-M), another greenhouse with young plants, and one greenhouse without plants, to investigate microclimate characteristics such as indoor air temperature, relative humidity, and solar radiation under natural ventilation.
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Exposure level and distribution of airborne bacteria and fungi in an urban utility tunnel: A case study
Ying Zhang,Dingmeng Wu,Qiangqiang Kong,Angui Li,Yuefei Li,Shibin Geng,Xian Dong,Yanni Liu,Peng Chen +8 more
TL;DR: In this article, the exposure level and size distribution of airborne bacteria and fungi were measured in three typical sections in an urban utility tunnel in Nanjing, China, which conform to the criteria of the Indoor air quality standard of China ( 1000CFU/m3) and National Institute of Occupational, Safety and Health (not exceeding 1000 CFU/ m3).
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Low-resistance optimization and secondary flow analysis of elbows via a combination of orthogonal experiment design and simple comparison design
TL;DR: In this article , a modified elbow with double guide vanes was proposed to reduce the resistance of local piping components in HVAC systems, which significantly contributes to building energy consumption.
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