CFD Modeling of Ventilation and Dust Flow Behavior in Polishing and the Design of an Innovative Wet Dust Removal System

Qian, Jianghai; Wang, Junfeng; Liu, Hailong; Xu, Helan

doi:10.3390/ijerph17166006

Cited by 5 publications

(2 citation statements)

References 17 publications

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“…Dust deposited on plants can have a range of physical and chemical impacts. Dust deposition in households and commercial buildings requires major efforts and economic costs for interior cleaning and domestic landscaping clean-ups (Qian et al, 2020). Such deposits also reduce reservoir storage capacity and clog streams and drainage channels.…”

Section: Effect Of Sahara Dust On Human Activities and Social Lifementioning

confidence: 99%

The Saharan dust plume: Current knowledge on the impact on health, human activities, and the ecosystem, with comments on research gaps

Olarewaju

Fajinmi

Davies

et al. 2023

Preprint

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A massive amount of dust estimated at a million tons is released from the Sahara Desert each year into the atmosphere and travels over the North Atlantic Ocean, commonly referred to as the Saharan dust plume (SDP). With its ability to travel over very long distances across the sea, the SDP is of enormous global importance, affecting climatic processes, and playing a significant role in nutrient cycles, sedimentary cycles, and soil development. On the other hand, from an environmental health perspective, the SDP degrades air quality, posing serious health threats to humans, especially to people with lung conditions. Recent literature documents health issues, including respiratory and cardiovascular diseases and even death in extreme cases. Despite this knowledge, large uncertainties exist in our ability to predict future trends in Saharan dust emissions and model-projected atmospheric circulation patterns. Employing a comprehensive search of the recent literature, this study reviews present knowledge of the sources, composition and propagation dynamics of the SDP and the impact of its contained atmospheric particulates on health, ecosystems, and human activities to be able to formulate credible mitigation measures and unveil areas where further research is needed for improving on these formulations. A comprehensive list of the more recent references (mainly post-dating 2010) is assembled to aid the search process of those wanting to contribute to filling these important knowledge gaps.

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Section: Effect Of Sahara Dust On Human Activities and Social Lifementioning

confidence: 99%

The Saharan dust plume: Current knowledge on the impact on health, human activities, and the ecosystem, with comments on research gaps

Olarewaju

Fajinmi

Davies

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…2 From the comprehensive consideration of economy and collection performance, fiber filtration is currently the most common technology for removing particles from flue gas compared with electrostatic, 3 cyclone, 4 and wet dust removal. 5 The fiber filtration efficiency can be improved by changing the fiber cross-sectional shape, 6 fiber diameter, 7 fiber orientation distribution, 8 and fiber arrangement 2,9 ; loading nanofibers on the surface of the fiber layer 10,11 or changing the structure of filter media. [12][13][14][15] However, traditional fibers have a "breakthrough" in the PM 2.5 range, 16 especially for particles with a size of 0.5-1.0 μm, which are not easily filtered using conventional filters.…”

Section: Introductionmentioning

confidence: 99%

The influence of interaction between orthogonal magnetic fibers on the capture of Fe-based fine particles by each fiber

Diao

Chu

et al. 2022

Journal of Engineered Fibers and Fabrics

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In this work, an existing method of capturing Fe-based fine particles by magnetic fiber is improved, and a weaving method for the fiber filter material is further determined. Different combinations of magnetic fields could form around the magnetic fibers, which change the interaction between orthogonal magnetic fibers when a uniform magnetic field is applied along the X-, Y-, and Z-axes. Therefore, the process of particle capture by the orthogonal magnetic fibers under three configurations was compared using the computational fluid dynamics-discrete phase model (CFD-DPM) and a special user-defined function (UDF) of the magnetic force. The results show that the interaction between orthogonal magnetic fibers could either inhibit or promote the capture of Fe-based fine particles by adjacent magnetic fibers. In industrial production, the magnetic filter material is suitable for the weaving method for the alternate use of magnetic and traditional fibers. When a uniform magnetic field is applied along the X-axis, this weaving method makes the capturing performance of orthogonal magnetic fiber best. Moreover, the magnetic characteristics, flow characteristics, and combination sequence of magnetic fields should be considered. This study provides scientific researchers with new insights for the development of novel high-efficiency fibrous filters to reduce particulate pollutants emissions.

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Performance evaluation of particulate matter removal by surfactant foams

Chae,

Hong,

Kim

et al. 2024

Atmospheric Pollution Research

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CFD Modeling of Ventilation and Dust Flow Behavior in Polishing and the Design of an Innovative Wet Dust Removal System

Cited by 5 publications

References 17 publications

The Saharan dust plume: Current knowledge on the impact on health, human activities, and the ecosystem, with comments on research gaps

The Saharan dust plume: Current knowledge on the impact on health, human activities, and the ecosystem, with comments on research gaps

The influence of interaction between orthogonal magnetic fibers on the capture of Fe-based fine particles by each fiber

Performance evaluation of particulate matter removal by surfactant foams

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