Vertical Distribution Characteristics of Outdoor
Particles Concentrations in High-Rise Buildings

Zhang, Xin; Fan, Yi; Yu, Wan-Qing; Wang, Huan; Niu, Bingbing; Li, Mengyue

doi:10.15244/pjoes/126320

Cited by 9 publications

(5 citation statements)

References 15 publications

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“…According to Table 2 ’s data, particles from 0 to 2.5 μm accounted for the majority of the atmosphere (approximately 99.88%); particles from 0 to 1.0 μm accounted for 99.55%. The atmospheric particles in Xi’an were mainly small particles; this was consistent with conclusions in relevant research [ 34 ]. These particles increase health risks [ 35 ]; thus, improving air filters’ purification effect is urgent.…”

Section: Resultssupporting

confidence: 91%

Comparative Filtration Performance of Composite Air Filter Materials Synthesized Using Different Impregnated Porous Media

et al. 2023

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Indoor environment quality is currently a hot research topic. In this study, composite air filter materials were synthesized using different impregnated porous medium materials, and their filtration performance and structural parameters were analyzed. The results showed that composite filter materials’ structures changed at the fibers’ surfaces when synthesized using different porous medium material layers. The filtration efficiency of composite filter materials synthesized using different porous media reached a maximum 0.8 m/s filtration velocity, and PM10, PM2.5, and PM1.0 increased by 1.67~26.07, 1.19~26.96, and 1.10~21.98%, respectively. The filtration efficiencies of reduced graphene oxide composite for PM10, PM2.5, and PM1.0 were 21.26, 20.22, and 18.50% higher, respectively, than those of carbon black composite. In addition, the filtration efficiency of the composite material synthesized by reducing graphene oxide improved for 0 to 1.0 μm particulates and was more effective by comparison. Filtration efficiency and resistance were comprehensively considered during air filter use to provide useful values for the selection and preparation of composite filter materials in the future.

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Section: Resultssupporting

confidence: 91%

Comparative Filtration Performance of Composite Air Filter Materials Synthesized Using Different Impregnated Porous Media

et al. 2023

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“…The particle sizes of 0~1.0μm accounted for more than 99.7%. Particles in the atmosphere in Xi'an were mainly small in size, which was easy to enter the human respiratory tract and lungs, it is consistent with the conclusion of the literature [4,33]. Therefore, it is very necessary to effectively filter and purify the particulate matter in the fresh air system.…”

Section: Resultssupporting

confidence: 81%

“…With the increasing of air pollution and the improvement of building air-tightness levels in recent years, indoor air pollution problems have become increasingly prominent [1,2]. It was not only seriously affected people's normal life, such as bad living conditions and unsatisfactory living feelings [3,4], but also brought many diseases to people's physical and mental health [5,6]. Relevant literature had shown that particles of different sizes would enter different parts of the human body and they could cause varying degrees of damage [7], as showed in fig.…”

Section: Introductionmentioning

confidence: 99%

Effect of pipes materials on particulate matters deposition in fresh air filtration systems: A case study

Zhang

et al. 2023

THERM SCI

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With the widespread popularity of fresh air filtration systems, the pipes materials have become one of the important parameters that affect the overall performances of the fresh air systems. In this paper, an experimental study on the deposition of particulate matters on two commonly used pipes materials (PVC and PE) in the market was tested, and conducted an in-depth analysis of its influencing factors. The results showed that the deposition rates of particulate matters in the PVC pipe increased with the increased of the inlet velocity, and the deposition rate reached the maximum at the velocity was 4.0m/s. While the deposition rates of particulate matters in the PE pipe were increased first and then decreased with the increased of the inlet velocity, and the deposition rates reached the maximum at the velocity was 3.5m/s. The PM values deposition rates showed the pipe systems of PE were higher than that of PVC. With the increased of the particle sizes, the tends of deposition rates increased gradually. There were big differences in the deposition rates of particle sizes of less than 1.0?m, and the largest difference was 0.615?m, with 8.44%. Therefore, reasonable pipeline materials should be selected comprehensively according to actual need in the process of pipeline installation and use. It would provide a useful reference value for the selection of pipeline materials in the fresh air filtration systems in the post-epidemic era.

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“…It can be seen that particles of sizes of 0−2.5 μm comprised most of the atmosphere, about 99.68%, of which the particles of sizes of 0− 1.0 μm accounted for 98.96%. It is clear that in Xi'an, particles are mainly composed of fine particles; 39 such particles can easily enter the respiratory tract and lungs of the human body, leading to disease and death. 40 Therefore, the purification effect of fine particles should be improved to achieve the purpose of creating good indoor environmental hygiene.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Modifying the Fiber Structure and Filtration Performance of Polyester Materials Based on Two Different Preparation Methods

Zhang

Wang

et al. 2023

Langmuir

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How to build a satisfactory indoor environment has become increasingly important. In this paper, the synthesis and improvement of the most widely used polyester materials in China were carried out based on two different preparation methods, and the structures and filtration performances were tested and analyzed. The results showed that a carbon black coating was wrapped on the surfaces of the new synthetic polyester filter fibers. Compared with the original materials, the filtration efficiencies of PM10, PM2.5, and PM1 were increased by 0.88–6.26, 1.68–8.78, and 0.42–4.84%, respectively. The best filtration velocity was 1.1 m/s, and the new synthetic polyester materials with direct impregnation demonstrated superior filtration performance. The filtration efficiency of the new synthetic polyester materials was improved on the particulates with sizes of 1.0–5.0 μm. The filtration performance of G4 was better than that of G3. The filtration efficiencies of PM10, PM2.5, and PM1 were improved by 4.89, 4.20, and 11.69%, respectively. The quality factor value can be used to assess the comprehensive filtration performance of air filters in practical applications. It could provide reference values for the selection of synthetic methods of new filter materials.

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Vertical Distribution Characteristics of Outdoor Particles Concentrations in High-Rise Buildings

Cited by 9 publications

References 15 publications

Comparative Filtration Performance of Composite Air Filter Materials Synthesized Using Different Impregnated Porous Media

Comparative Filtration Performance of Composite Air Filter Materials Synthesized Using Different Impregnated Porous Media

Effect of pipes materials on particulate matters deposition in fresh air filtration systems: A case study

Modifying the Fiber Structure and Filtration Performance of Polyester Materials Based on Two Different Preparation Methods

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