Recently, the importance of air filters used in air purifiers and ventilation systems is emphasized in Korea. As a result, air filter test reports are required by users to ensure the removal efficiency of particulate matter. However, the tests are conducted for the filter material alone, which lead to a possible discrepancy between the test report and actual efficiency when applied to actual devices. Therefore, in this study, the removal efficiency data of the filter test reports were compared with actual filter efficiency data after application to the ventilation systems for some ventilation systems in the market. For ventilation system A, the field test results using filter leakage test method were slightly lower than those in the test report but nearly the same. For ventilation system B, the field test result was much higher than reported in the test report. This was due to the broad range of particle sizes measured using the filter leakage test method. The field tests using the particle counter method showed that the removal efficiency of ventilation system A for 0.3 μm was under 50% which translates to less than half of those of the filter test reports. For ventilation system B, the removal efficiency was 15%~21%. much lower than reported in the filter test reports. The lower removal efficiencys are mainly assumed to be caused by leakage of the filter installation among other factors. Therefore, the field test methods for the particulate matter removal efficiency of ventilation systems should be established to verify actual efficiency and improve the efficiency in the future.

본 연구는 미세먼지 문제 속에서의 환경권 보장에 대한 연구이다. 미세먼지가 사회문제로 이슈화되고 이에 대한 국민의 환경권에 대한 논의를 한 뒤, 미세먼지와 관련된 판례에서 나타난 국민이 건강하게 좋은 환경에서 살아갈 권리를 조명한다. 특히 국내 판결에서 건강권과 관련하여 배출가스 또는 미세먼지가 질병에 미치는 영향의 과학적 입증이 필요함을 강조한다. 연구를 통해 국민의 환경권을 보장하고 환경 불평등을 완화하며 환경 정의를 실현하기 위해 미세먼지 문제의 해결이 요원함을 알 수 있었다. 미세먼지 농도와 환경기준 미달성률, 시도별 미세먼지 현황을 검토하며 국가 및 지자체가 법제를 통해 심화되는 미세먼지 문제를 해결하려는 노력을 알 수 있었다. 미세먼지로부터 받는 영향력이 소외계층에게 더욱 컸고, 지역별로도 미세먼지의 피해가 다양하게 나타났고 이에 대응한 조례들도 제정되고 있다. 또한 본 연구에서 미세먼지와 관련한 판결들을 분석하였고 각종 미세먼지의 원인과 손해, 국가배상, 배출금지와 관련된 판례에서 과학기술 연구 결과를 인용하고 그 측정치 내지 분석결과나 논문을 판단의 잣대로 삼았다는 것을 알 수 있었다. 우리나라에선 미세먼지가 국민 질병에 미치는 피해와 관련한 소송이 있었지만 법원이 인정하지 않았다. 한국은 지금까지 개별적 인과관계를 인정하지 않았지만 대법원과 헌법재판소에 판례에 따르면 실제 전국에 걸쳐 국민들이 대기환경으로 피해를 보고 있는 경우 국가가 책임을 회피하기는 어려울 것이다. 이러한 과학적 인과관계 입증의 어려움이 컸던 기존 판례의 어려움을 통해 보았을 때 미세먼지 문제를 해결하기 위한 과학기술정책과 법제의 지원이 필요하다. 한국에 부족한 미세먼지 관련 연구개발을 중흥하기 위한 국가 주도의 법정책이 필요하며 국가기후환경위원회를 통해 과학적 사실과 국민인식의 괴리를 좁히는 노력도 필요하다. 또한 항만지역 등 미세먼지발생이 높은 섹터에 대한 정보체계관리와 과학기술을 통한 배출물질과 오염의 인과관계를 밝히는 노력이 필요하며 이를 위한 법제 지원도 중요한 요소로 판단된다.

PURPOSES: Nitrogen oxide (NOx) is a particulate matter precursor, which is a harmful gas contributing to air pollution and causes acid rain. The approaching methods for NOx removal from the air are the focus of numerous researchers worldwide. Titanium dioxide (TiO2) and activated carbon are particularly useful materials for NOx removal. The mechanism of NOx elimination by using TiO2 requires sunlight for a photocatalytic reaction, while activated carbon absorbs the NOx particle into the pore itself after contact with the atmosphere. The mixing method of these two materials with concrete, coating, and penetration methods on the surface is an alternative method for NOx removal. However, this mixing method is not as efficient as the coating and penetration methods because the TiO2 and the activated carbon inside the concrete cannot come in contact with sunlight and air, respectively. Hence, the coating and penetration methods may be effective solutions for directly exposing these materials to the environment. However, the coating method requires surface pretreatment, such as milling, prior to securing contact, and this may not satisfy economic considerations. Therefore, this study aims to apply TiO2 and activated carbon on the concrete surface by using the penetration method. METHODS : Surface penetrants, namely silane siloxane and silicate, were used in this study. Photocatalyst TiO2 and adsorbent activated carbons were selected. TiO2 was formed by the crystal structures of anatase and rutile, while the activated carbons were plant- and coal-type materials. Each penetrant was mixed with each particulate matter reductant. The mixtures were sprayed on the concrete surface using concentration ratios of 8:2 and 9:1. A scanning electron microscopy with energy dispersive X-ray equipment was employed to measure the penetration depth of each specimen. The optimum concentration ratio was selected based on the penetration depth. RESULTS: TiO2 and activated carbon were penetrated within 1 mm from the concrete surface. This TiO2 distribution was acceptable because TiO2 and activated carbon locate to where they can directly come in contact with sunlight and air pollutant, respectively. Infiltration to the concrete surface was easily achieved because the concrete voids were bigger than the nanosized TiO2 and microsized activated carbon. The amount of penetration for each particulate matter reductant was measured from the concrete surface to a certain depth. CONCLUSIONS : The mass ratio on the surface can be predicted from the mass ratio of the particulate matter reductant measurement distributed through the penetration depth. The optimum mass ratio was also presented. Moreover, the mixtures of TiO2 with silane siloxane and activated carbon with silicate were recommended with an 8:2 concentration ratio.

본 논문에서는 선박용 디젤엔진의 미세먼지저감 장치에 장착된 다공판 및 믹서의 형상과 배치에 따른 압력강하와 유동균일도 특성에 대한 연구를 진행하였다. 미세먼지저감 장치에 장착된 다공판 및 믹서는 미세먼지저감 장치 내의 배출가스 및 산화/환원제의 유동 균일도를 높여 배출가스 저감 성능을 높이는 긍정적인 효과와 함께 시스템의 배압을 상승시키는 부정적인 효과도 동시에 지니고 있다. 본 연구에서는 5개의 다공판, 1개의 믹서를 Case 별로 조합하여 6개의 사양에 대해서 유동해석을 통해 각각 유동균일도 및 압력 강하를 계산하였으며, 최적의 다공판 및 믹서의 형상과 배치를 선정하였다.

Outdoor air pollution with particulate matter has become more severe in Korea. Ambient particle concentration affects the indoor environment through various routes through building envelopes. In this study, we investigated particle exposure in residential buildings. Indoor and outdoor particle sources determined the indoor concentrations and particle exposure. This paper measured indoor particles and CO2 concentrations in two different apartment buildings and conducted the survey for 24 hours. The I/O ratio of the occupant awake period was higher than the asleep period. The I/O ratio in the awake period is 0.93-3.65, while the I/O ratio in the asleep period is 0.31- 0.76.Indoor peak events such as cooking or cleaning temporarily increase the I/O ratio and emit the indoor particle sources. Decay rate constant is 0.49-6.84 (1/h) in the indoor peak events during the operation of the exhaust hood and natural ventilation. The size range of 0.3-0.5 μm size is over half for the proportions of emitted particles (55.6%). Daily exposure is divided into indoor sources (45.2%) and outdoor sources (54.8%). We found the differences for the proportion of particle exposure. The ratio of daily exposure in particles for 0.3-0.5 μm size is 43.1 (indoor)/ 56.9 (outdoor) %. However, indoor sources are higher than outdoor sources for the ratio of daily exposure in particles for the 0.5-10.0 μm size.

The goal of this study was to measure the indoor and outdoor fine and ultrafine particulate matter concentrations (PM10, PM1.0) of some houses in Yeosu and in S university in Asan from March to September 2018. PM10 concentration in indoor air in Yeosu area was 18.25 μg/m3, while for outdoor air it was 14.53 μg/m3. PM1.0 concentration in indoor air in the Asan area was 1.70 μg/m3, while for outdoor air it was 1.76 μg/m3, showing a similar trend. Heavy metal concentrations in the Yeosu region were the highest, at Mn 2.81 μg/m3, Cr 1.30 μg/ m3, and Ni 1.11 μg/m3 indoors. Outside, similar concentrations were found, at Cr 3.44 μg/m3, Mn, 2.60 μg/m3, and Ni 1.71 μg/m3. Our analysis of indoor and outdoor PM concentrations in the Asan region, which was carried out using the MOUDI (Micro-orifice Uniform Deposit Impactor) technique, found that PM concentration is related to each particle size concentration, as the concentration of 18 μm and 18-10 μm inside tends to increase by 3.2- 1.8 μm and 0.56-0.32 μm.

PURPOSES: The purpose of this study is to analyze characteristics of concentrations of fine particulate matter (PM2.5) among 3 different types of bus stops, specifically partially closed bus stop with front & back partition, partially closed bus stop with back partition, and bus stop with open space (referred to as bus stop types Ⅰ, Ⅱ, and Ⅲ, respectively) at urban roadside, using the Anderson-Darling test as statistical method. METHODS: For the purpose of this study, first of all, data on concentrations of PM2.5 on the 3 types of bus stops at urban roadside were acquired for certain days, with different levels of air quality index (AQI). Secondly, this study accomplished the data processing of removing outliers from acquired data, and the Anderson-Darling test was conducted to estimate probabilities of occurrence for concentrations of PM2.5 in the 3 types of bus stops. RESULTS : The average concentrations of PM2.5 for AQI‘ Very High’for bus stop types Ⅰ, Ⅱand Ⅲare 46-179㎍/m3, 66-194㎍/m3, 42- 134㎍/m3, respectively, and for AQI ‘High’for bus stop typesⅠ, Ⅱ and Ⅲ are 16-71㎍/m3, 26-84㎍/m3, and 14-69㎍/m3, respectively. Furthermore, probabilities of occurrence for concentration levels of PM2.5 in AQI were estimated for given measurement dates using the Anderson-Darling test as statistical method. As a result, for AQI ‘Very High,’the probabilities of occurrence for concentration levels ‘Very High’and‘ High’were determined more likely to occur regardless of bus stop type. With respect to each type of bus stop, the probabilities of ‘Very High’for bus stop type Ⅱ were 93.37% and 98.92%, higher than for the other bus stop types. For AQI ‘High’the probabilities of occurrence for concentration levels‘ Good’were found to be very low, at 0.00% to 3.07%, and occurred mainly for‘ Moderate’and‘ High’in this study. In particular, the probabilities of occurrence for concentration level‘ High’for bus stop type Ⅱwere analyzed to be greater than 90%, compared to those for the other bus stop types. CONCLUSIONS: Based on the result of this study, when PM2.5 is analyzed on certain days, probabilities of occurrence for concentration levels in AQI should be considered for each type of bus stop.

지구온난화 및 대기오염 등 환경문제에 대한 관심이 대두되면서 국제해사기구의 선박 대기오염물질 배출 규제 및 협약이 채택 되었으며, 최근 국내에서는 항만지역 등 대기질의 개선에 관한 특별법안이 제정되어 미세먼지 발생량을 줄이고자 다방면으로 노력하고 있다. 이러한 미세먼지 저감대책의 일환으로 노후화된 연안선박의 디젤엔진을 미세먼지 및 배출가스가 없는 배터리 전기추진시스템으로 전환하는 것에 대한 타당성 조사가 활발히 진행되고 있다. 배터리 전기추진시스템은 연료의 연소로 인한 배기가스의 발생이 없으며, 신재 생에너지원의 적용이 용이하므로 유럽이나 미국과 같은 선진국에서는 수년전부터 신재생에너지를 적용한 배터리 전기추진시스템이 적용 된 소형연안여객선이 운항 중이나 국내에서는 전무하다. 따라서 본 연구에서는 국내 소형연안여객선을 대상선박으로 선정하여 태양광 발 전시스템이 연계된 배터리 전기추진선박의 적용 여부에 대해 시뮬레이션을 하였으며, 그에 따른 결과를 바탕으로 배터리 전기추진선박의 적용가능성을 확인하고자 한다.

Recently, a number of researchers have produced research and reports in order to forecast more exactly air quality such as particulate matter and odor. However, such research mainly focuses on the atmospheric diffusion models that have been used for the air quality prediction in environmental engineering area. Even though it has various merits, it has some limitation in that it uses very limited spatial attributes such as geographical attributes. Thus, we propose the new approach to forecast an air quality using a deep learning based ensemble model combining temporal and spatial predictor. The temporal predictor employs the RNN LSTM and the spatial predictor is based on the geographically weighted regression model. The ensemble model also uses the RNN LSTM that combines two models with stacking structure. The ensemble model is capable of inferring the air quality of the areas without air quality monitoring station, and even forecasting future air quality. We installed the IoT sensors measuring PM2.5, PM10, H2S, NH3, VOC at the 8 stations in Jeonju in order to gather air quality data. The numerical results showed that our new model has very exact prediction capability with comparison to the real measured data. It implies that the spatial attributes should be considered to more exact air quality prediction.

PURPOSES: The purpose of this study is to compare the concentrations of fine particulate matter (PM2.5) at different types of roadside bus stops in an urban environment, and analyze the tendencies in PM2.5 concentrations according to the air quality index. METHODS : To compare and analyze the characteristics of fine particulate matter at roadside bus stops, we collected data such as PM2.5 concentration, temperature, humidity etc., and performed a comparative analysis of their concentration levels at different types of bus stops (a partially closed bus stop with a front and back partition, a partially closed bus stop with only a back partition, and a bus stop with an open space). In addition, the daily variation in fine particulate matter concentration was analyzed. RESULTS: The average daily concentration levels of fine PM2.5 in the target area for a partially closed bus stop with a front and back partition, a partially closed bus stop with a back partition, and a bus stop with an open space were 18.40㎍/㎥ to 108.27㎍/㎥, 22.81㎍/㎥ to 135.51㎍/㎥, and 16.62㎍/㎥ to 81.52㎍/㎥, respectively. According to air quality index levels during the target measurement period, the bus stop with an open space had the least concentration levels of PM2.5 compared to the other bus stops. Furthermore, this study revealed that the PM2.5 concentration levels usually increased during the peak hour period in the morning and gradually increased after 2 pm until the end of the peak hour period at night, regardless of the bus stop type. CONCLUSIONS: Based on the results of this study, we demonstrated the effect of PM2.5 concentration levels on the atmospheric, weather, environmental, and transportation conditions in a target area, and the variation in concentration levels depending on the type of bus stop.

오늘날, 세계적으로 미세먼지(Particulate Matters:PM)의 심각성에 대한 인식과 해결을 위한 다양한 방법이 소개되고 있다. 영국과 같은 선진국에서는 정책을 바탕으로 커뮤니티가 주도하는 활성화된 PM저감형 가든 조성 및 관리를 통해 PM저감에 기여하고 있다. 이에 대한 연구는 국내 PM문제 해결을 위한 대안이 될 수 있다. 그러므로, 본 연구의 목적은 커뮤니티 주도 PM저감형 가든에 대한 영국 런던의 사례 분석과 경영 구조에 대한 특징을 고찰하고자 하였다. 이를 바탕으로, 적극적인 커뮤니티 참여를 통한 PM저감형 가든 조성 및 운영 활성화를 위한 시사점을 도출하고자 하였다. 체계적인 분석, 고찰 및 시사점 도출을 위해, Place-keeping 분석 틀을 이용하였다. 그 결과, 적극적인 거버넌스를 강조하는 지방정부의 정책적 가이드라인이 PM저감을 위한 구심점으로 작용하였다. 또한, 이해관계자들의 참여를 통한 파트너십, 커뮤니티에 의한 추가적인 재원 마련, 정기적인 모니터링, 장기적 관점에서의 관리가 동시에 적용되고 있음을 발견하였다. 이에, 본 연구에서는 PM저감형 커뮤니티 가든은 적극적 거버넌스 개념 도입을 통한 지속 가능한 자립형 경영 구조를 강조하는 바이다. 이러한 주장을 뒷받침하기 위해 Place-keeping의 여섯 가지 개념을 적용하여 시사점을 도출하였다. 첫째, 정책은 커뮤니티 참여 활성화를 강조하는 실현 가능한 대안을 제시해야 한다. 둘째, 적극적 거버넌스 개념을 촉진하기 위해 커뮤니티의 의사결정 참여를 위한 기회 제공을 의무화해야 한다. 셋째, 추가적인 재원 마련을 위해 민간 및 비지니스 분야와 같은 외부 자금 지원이 확대돼야 한다. 넷째, PM저감 쟁점에 대해 일반 국민이 책임을 공유해야 한다. 다섯째, 커뮤니티 주도 PM모니터링 확대와 대학과 같은 잠재적인 이해관계자들의 PM모니터링 참여를 확대해야 한다. 여섯째, 저관리형 PM저감 식재를 통해 재원 및 인력 부족에 대한 한계점을 최소화하여 장기적인 유지관리 구조를 조성해야 한다. 이와 같은 시사점의 반영은 추후, 공동체 의식의 증가뿐만 아니라, 결과적으로 PM저감형 커뮤니티 가든의 활성화로 이어질 것이다. 이에 본 연구를 통해 밝혀진 PM저감형 커뮤니티 가든의 긍정성이 국내 PM문제 해결을 위한 매개체가 되기를 기대한다.