A review of traditional and advanced technologies for the removal of particulate matter in subway systems

Park, Jun-Hyeong; Son, Youn-Suk; Kim, Ki‐Hyun

doi:10.1111/ina.12532

Cited by 28 publications

(15 citation statements)

References 87 publications

(245 reference statements)

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“…Applying liquid dust suppressants to new ballasts, prohibiting diesel-powered trains or facilities, building along a straight, horizontal trajectory, designing a variable longitudinal profile railway, and slowing trains at sharp curves and high gradients may minimize wears of rail, wheels, and brakes, and then reduce metallic PM emissions. Besides, developments of materials that emit fewer and less toxic particles are a positive way forward [5,82,[233][234][235][236]. When it comes to VOCs, controlling ground fossil-fueled vehicles effectively decreases the VOC concentrations in subways [177], and restricted use and prompt cleaning of spilled oils, solvents, deodorants, and decoration materials can reduce indoor sources.…”

Section: Mitigation Measuresmentioning

confidence: 99%

Environmental and Health Effects of Ventilation in Subway Stations: A Literature Review

Wen

Leng

Shen

et al. 2020

IJERPH

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Environmental health in subway stations, a typical type of urban underground space, is becoming increasingly important. Ventilation is the principal measure for optimizing the complex physical environment in a subway station. This paper narratively reviews the environmental and health effects of subway ventilation and discusses the relevant engineering, environmental, and medical aspects in combination. Ventilation exerts a notable dual effect on environmental health in a subway station. On the one hand, ventilation controls temperature, humidity, and indoor air quality to ensure human comfort and health. On the other hand, ventilation also carries the potential risks of spreading air pollutants or fire smoke through the complex wind environment as well as produces continuous noise. Assessment and management of health risks associated with subway ventilation is essential to attain a healthy subway environment. This, however, requires exposure, threshold data, and thereby necessitates more research into long-term effects, and toxicity as well as epidemiological studies. Additionally, more research is needed to further examine the design and maintenance of ventilation systems. An understanding of the pathogenic mechanisms and aerodynamic characteristics of various pollutants can help formulate ventilation strategies to reduce pollutant concentrations. Moreover, current comprehensive underground space development affords a possibility for creating flexible spaces that optimize ventilation efficiency, acoustic comfort, and space perception.

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Section: Mitigation Measuresmentioning

confidence: 99%

Environmental and Health Effects of Ventilation in Subway Stations: A Literature Review

Wen

Leng

Shen

et al. 2020

IJERPH

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“…Influenced by the local environment and the ground environment, the concentration of subway PM in some areas is higher in autumn and winter when the ground air pollution is more serious, and the microbial content in subway stations is significantly increased in the local florescence [32]. In addition, train operating age [17], brake type [13], and environmental control system [18,47] will also directly or indirectly affect the concentration of PM.…”

Section: Driving Factors Of Subway Particulate Matter (Pms) Variationsmentioning

confidence: 99%

“…We simplify the problem to consider only the construction cost of installing screen doors and air-conditioning systems in substandard stations, while ignoring other costs, such as shadow costs of passenger flows, equipment operating costs, and the cost of installing other technologies, such as exchanging rails and wheels, installing iron particle captures, washing walls of tunnels, and wearing masks. There are at least 4 reasons why this paper suggests to choose installing screen door and air-conditioning systems over other technologies: compared to other methods, installing screen door systems are effective, more convenient, mature in technology, and operational in terms of cost [13]. The method that exchanges or upgrades materials of rails and wheels, and the technology that installs iron particle captures are still under R&D process and its cost and mitigation effectiveness is still unknown.…”

Section: Question 2: How Clean Air Policy Interacts With Environmentamentioning

confidence: 99%

“…Individual Subway System Potential Cost = Regional Total Cost/Number of Cities (13) In Asia, for example, there are about 2588 underground stations, 7218 km of subway mileage, and 70 cities counted. Assuming that all stations are equipped with screen door systems, the average cost per city is about USD 151 million:…”

Section: Question 2: How Clean Air Policy Interacts With Environmentamentioning

confidence: 99%

“…In terms of the site characteristics, the concentration of PM on the ground floor is lower than that on the underground floor, and the concentration on the platform is higher than that in the train compartment. The highest concentration of PM is found on the underground platform and the lowest concentration in the ground train compartment due to the combined action of adverse factors [10][11][12][13]. In terms of time, the variation of PM concentration is related to trains frequency [11,14], seasons [15], and so on [16], as well as other matters which directly or indirectly affect the PM concentration such as the train running age [17], brake types [13], and environmental control systems [18].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Current Status, Challenges and Resilient Response to Air Pollution in Urban Subway

Zhang

Zhao

Zhao³

et al. 2019

Atmosphere

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Subway air pollution mainly refers to inhalable particulate matter (PM) pollution, organic pollution, and microbial pollution. Based on the investigation and calculation of the existing researches, this paper summarizes the sources of air pollutants, chemical compositions, and driving factors of PM variations in subway. It evaluates the toxicity and health risks of pollutants. In this paper, the problems and challenges during the deployment of air pollution governance are discussed. Results show that the global PM compliance rate of subway is about 30%. Subway air pollution is endogenous, which means that pollutants mainly come from mechanical wear and building materials erosions. Particles are mainly metal particles, black carbon, and floating dust. The health risks of some chemical elements in the subway have reached critical levels. The variations of PM concentrations show spatial-temporal characteristics, which are mainly controlled by train age, brakes types, and environmental control systems. The authors then analyze the dynamics of interactions among government, companies and public during the air pollution governance by adding the following questions: (a) who pays the bill; (b) how to evaluate the cost-effectiveness of policies; (c) how the public moves from risk perception to actions; (d) how to develop clean air technology better so as to ultimately incentivize stakeholders and to facilitate the implementation of subway clean air programme in a resilient mode.

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Characteristics of indoor air quality in underground metro stations: A critical review

Passi

Nagendra

Maiya

2021

Building and Environment

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A review of traditional and advanced technologies for the removal of particulate matter in subway systems

Cited by 28 publications

References 87 publications

Environmental and Health Effects of Ventilation in Subway Stations: A Literature Review

Environmental and Health Effects of Ventilation in Subway Stations: A Literature Review

Current Status, Challenges and Resilient Response to Air Pollution in Urban Subway

Characteristics of indoor air quality in underground metro stations: A critical review

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