Your search keyword '"Soo-Ran Won"' showing total 8 results

1. Indoor air quality and its determinants in underground shopping malls in Korea

Author

Jeonghoon Kim, In-Keun Shim, Soo Ran Won, Eun Seol Hwang, Yumi Lee, Sujung Park, Jungmin Ryu, and Jongchun Lee

Subjects

Aldehydes, Indoor air quality, PM2.5, Underground shopping malls, Volatile organic compounds, Environmental sciences, GE1-350

Abstract

Underground shopping malls (USMs) are often open or semi-open environments with interconnected passageways, resulting in the sharing of indoor air. However, indoor air quality (IAQ) within these spaces can vary due to many diverse emission sources. We investigated the relationships between IAQ and geographical areas, as well as IAQ and store types, within USMs, in Korea.In 2020, we studied 10 different USMs, with a total of 128 outlets. We conducted comprehensive IAQ assessments (including measurements of fine particles (PM2.5), aldehydes, and volatile organic compounds (VOCs)) in stores, passages, and outdoor areas. The stores were categorized into three types: clothing, fashion accessories, and food services. Additionally, we measured environmental factors such as CO2 levels and presence of storefront walls.PM2.5 levels were higher outdoors, whereas aldehyde and VOC levels exhibited elevations within passages and the interior of stores than in the outdoor environment. The store-to-passage ratios for PM2.5, individual aldehydes, and VOC concentrations ranged from 1.06 to 4.93. Formaldehyde and total VOC (TVOC) concentrations were found to be elevated in clothing and fashion accessory stores, whereas PM2.5 concentrations were more prominent in food service establishments. Specific individual compounds, including propionaldehyde, hexaldehyde, benzene, n-heptane, toluene, n-octane, xylene, d-limonene, n-undecane, n-dodecane, and ethylbenzene concentrations exhibited associations with store types. Multivariate regression models demonstrated positive associations between most aldehydes and VOCs with CO2 concentrations and presence of storefront walls.This study underscored variations within USMs based on area and store type. Aldehyde and VOC concentrations were notably higher in clothing and fashion accessory stores than in food service outlets; these elevations were closely linked to CO2 levels and presence of storefront walls. These findings suggest that monitoring CO2 levels within USM stores, optimizing air-conditioning systems, and designing future stores without storefront walls can collectively contribute to an overall improvement of IAQ within USMs.

Published

2024

2. Characteristics of Particles and Gaseous Pollutants Generated from Roasting Fish and Meat in Kitchens

Author

Jeong-Sub Lee, Soo Ran Won, In-Keun Shim, Eun Seol Hwang, Myunghee Kwon, and Hyun Ah Ji

Subjects

Indoor air quality, law, Gaseous pollutants, Ventilation (architecture), Environmental science, %22">Fish , Pulp and paper industry, law.invention, Roasting

Published

2019

3. Volatile Organic Compounds in Underground Shopping Districts in Korea

Author

Jongchun Lee, In-Keun Shim, Jeonghoon Kim, Jungmin Ryu, Soo Ran Won, and Young Sung Ghim

Subjects

Pollution, volatile organic compound, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, media_common.quotation_subject, 010501 environmental sciences, 01 natural sciences, complex mixtures, Article, Human health, Indoor air quality, Formaldehyde, Republic of Korea, Humans, Volatile organic compound, 0105 earth and related environmental sciences, media_common, Open air, chemistry.chemical_classification, Air Pollutants, Volatile Organic Compounds, Principal component factor analysis, Public Health, Environmental and Occupational Health, carcinogenic risk, source apportionment, chemistry, Air Pollution, Indoor, Environmental chemistry, Medicine, Environmental science, principal component factor analysis, Cancer risk, Environmental Monitoring, indoor air quality

Abstract

Underground shopping districts (USDs) are susceptible to severe indoor air pollution, which can adversely impact human health. We measured 24 volatile organic compounds (VOCs) in 13 USDs throughout South Korea from July to October 2017, and the human risk of inhaling hazardous substances was evaluated. The sum of the concentrations of the 24 VOCs was much higher inside the USDs than in the open air. Based on factor analysis, six indoor air pollution sources were identified. Despite the expectation of a partial outdoor effect, the impacts of the indoor emissions were significant, resulting in an indoor/outdoor (I/O) ratio of 5.9 and indicating elevated indoor air pollution. However, the effects of indoor emissions decreased, and the contributions of the pollution sources reduced when the USD entrances were open and the stores were closed. Although benzene, formaldehyde, and acetaldehyde exhibited lower concentrations compared to previous studies, they still posed health risks in both indoor and outdoor settings. Particularly, while the indoor excess cancer risk (ECR) of formaldehyde was ~10 times higher than its outdoor ECR, benzene had a low I/O ratio (1.1) and a similar ECR value. Therefore, indoor VOC concentrations could be reduced by managing inputs of open air into USDs.

Published

2021

4. PM

Author

Soo Ran, Won, In-Keun, Shim, Jeonghoon, Kim, Hyun Ah, Ji, Yumi, Lee, Jongchun, Lee, and Young Sung, Ghim

Subjects

Air Pollutants, Seoul, anthropogenic influence, cancer risk, Respiration Disorders, complex mixtures, Risk Assessment, Article, outdoor influence, Trace Elements, trace element sources, Humans, Particulate Matter, indoor air quality

Abstract

We measured PM2.5 in 41 underground shopping districts (USDs) in the Seoul metropolitan area from June to November 2017, and associated 18 trace elements to determine the sources and assess the respiratory risks. The PM2.5 concentrations were 18.0 ± 8.0 μg/m3 inside USDs, which were lower than 25.2 ± 10.6 μg/m3 outside. We identified five sources such as indoor miscellanea, soil dust, vehicle exhaust/cooking, coal combustion, and road/subway dust, using factor analysis. Almost 67% of the total trace element concentration resulted from soil dust. Soil dust contribution increased with the number of stores because of fugitive dust emissions due to an increase in passers-by. Vehicle exhaust/cooking contribution was higher when the entrances of the USDs were closed, whereas coal combustion contribution was higher when the entrances of the USDs were open. Although miscellanea and coal combustion contributions were 3.4% and 0.7%, respectively, among five elements with cancer risk, Cr and Ni were included in miscellanea, and Pb, Cd, and As were included in coal combustion. The excess cancer risk (ECR) was the highest at 67 × 10−6 for Cr, and the ECR for Pb was lower than 10−6, a goal of the United States Environmental Protection Agency for hazardous air pollutants.

Published

2020

5. PM2.5 and Trace Elements in Underground Shopping Districts in the Seoul Metropolitan Area, Korea

Author

Jeonghoon Kim, Hyun Ah Ji, Jongchun Lee, Young Sung Ghim, Yu mi Lee, In-Keun Shim, and Soo Ran Won

Subjects

010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, lcsh:R, Public Health, Environmental and Occupational Health, Environmental engineering, Trace element, anthropogenic influence, lcsh:Medicine, Coal combustion products, cancer risk, 010501 environmental sciences, complex mixtures, 01 natural sciences, Metropolitan area, Hazardous air pollutants, outdoor influence, Indoor air quality, trace element sources, Environmental science, Cancer risk, health care economics and organizations, indoor air quality, 0105 earth and related environmental sciences, Dust emission

Abstract

We measured PM2.5 in 41 underground shopping districts (USDs) in the Seoul metropolitan area from June to November 2017, and associated 18 trace elements to determine the sources and assess the respiratory risks. The PM2.5 concentrations were 18.0 &plusmn, 8.0 &mu, g/m3 inside USDs, which were lower than 25.2 &plusmn, 10.6 &mu, g/m3 outside. We identified five sources such as indoor miscellanea, soil dust, vehicle exhaust/cooking, coal combustion, and road/subway dust, using factor analysis. Almost 67% of the total trace element concentration resulted from soil dust. Soil dust contribution increased with the number of stores because of fugitive dust emissions due to an increase in passers-by. Vehicle exhaust/cooking contribution was higher when the entrances of the USDs were closed, whereas coal combustion contribution was higher when the entrances of the USDs were open. Although miscellanea and coal combustion contributions were 3.4% and 0.7%, respectively, among five elements with cancer risk, Cr and Ni were included in miscellanea, and Pb, Cd, and As were included in coal combustion. The excess cancer risk (ECR) was the highest at 67 &times, 10&minus, 6 for Cr, and the ECR for Pb was lower than 10&minus, 6, a goal of the United States Environmental Protection Agency for hazardous air pollutants.

Published

2021

6. Comparison of indoor air pollutants between social vulnerable and general households in Korea

Author

Hyun Ah Ji, Soo Ran Won, In-Keun Shim, and Myunghee Kwon

Subjects

Indoor air quality, Environmental engineering, Environmental science, Indoor air pollutants

Published

2016

7. A study on the distribution characteristics of indoor VOCs concentration in apartments

Author

Soo Ran Won, Myunghee Kwon, In-Keun Shim, and Hyun Ah Ji

Subjects

Indoor air quality, business.industry, Distribution (economics), Environmental science, business, Atmospheric sciences

Published

2016

8. Time resolved measurements of indoor air quality in a smoking pub

Author

Soo Ran Won, Myunghee Kwon, Oh-sang Kwon, Hyun Ah Ji, In-Keun Shim, and Wooseok Lee

Subjects

Indoor air quality, Environmental engineering, Environmental science

Published

2015