• 한국입자에어로졸학회지
• /
• 제12권3호
• /
• pp.51-56
• /
• 2016

Due to recent development in nanotechnology and increasing usage and production of nanomaterials, numerous studies related to environment, sanitation and safety handling of nanoparticle are being conducted. Since nanoparticles can be easily absorbed into human bodies through breathing process, based on their toxic substances and their large specific surface, these particles can cause serious health damage. Therefore, to reduce nanoparticle emissions, nanofiltration technology is becoming a serious issue. Filtration is a separation process during which a fluid passes through a barrier by removing the particles from the stream. Barrier filters can be made of various materials and shapes. One of the most common type of barrier filter is the fibrous filter. Fibrous filters are divided in two types: nonwoven and woven fabrics. Polypropylene is a thermoplastic material, used as a base material for melt blown nonwoven fabric. In this study, we examined filtration property of KCl nanoparticles with a mean particle diameter of 75 nm using multilayer meltblown filter samples. These experiments verify that the penetration of nanoparticle in the filter correlate with pressure drop; the meltblown layer MB1 has the greatest effect on dust collection efficiency of the filter. Among all tested samples, dust collection efficiency of 2-layer filter was best. However, when considering the overall pressure drop and dust collection efficiency, the 4-layer filter has the highest quality factor for particles smaller than 70 nm.

• 한국입자에어로졸학회지
• /
• 제18권3호
• /
• pp.79-86
• /
• 2022

Many commercial air purifiers currently have deployed granular activated carbon (GAC) filters for removing volatile organic compounds in the indoor air. GACs are generally used to remove gaseous contaminants in the air through adsorption by the inner surfaces of pores. In addition, airborne particles can be also filtered by the surface adsorption of the GACs, which can improve the life-time of the particulate filters. In this study, the filtration efficiency of GACs to ultrafine particles through surface adsorption was investigated at different volume flow rates by deploying a continuous particle filtration system. The polydisperse sodium chloride (NaCl) particles were generated by a set of an atomizer and a diffusion dryer, and then mixed with particle-free air at different volume flow rates. The penetration of ultrafine particles and pressure drop for each experimental condition were measured to figure out the effect of the volume flow rate on the surface adsoprtion of the GACs to particles, ~ 2 mm. The particle filtration efficiency of the GACs decreased as the volume flow rate increased from 4 to 14 lpm. However, the 5 times thicker GAC filter layer decreased the penetration of ultraparticles than a preious study. The filtration efficiency of the single granule was also higher than the previous result in the literature with smaller granule filter materials.

• 대한기계학회논문집B
• /
• 제30권2호
• /
• pp.186-192
• /
• 2006

We applied a new charging system using the condensation and evaporation method to charge the submicron particles with a uniform charging performance. The monodispersed NaCl submicron particles were condensed by n-butanol vapor and grew up to micron droplets with a same size, regardless of their initial size. Those condensed droplets were charged in an indirect corona charger. The indirect corona charger consisted of the ion generation zone and the particle charging zone. In the ion generation zone, Ions were generated by corona discharge and some of them moved into the particle charging zone by a carrier gas and mixed with the condensed droplet. And finally, the charged and condensed droplets dried through an evaporator to shrink to their original size. The average charge and penetration rate of the particles before and after evaporation were measured by CPC and aerosol electrometer and compared with those of a conventional corona charger. The results showed that the average charge was $5\~7$ charges and the penetration rate was over $90\%$, regardless of the initial particle size.

• Safety and Health at Work
• /
• 제11권1호
• /
• pp.61-70
• /
• 2020

Background: This study aims to assess whether the TSI PortaCount (Model 8020) is a measuring instrument comparable with the flame photometer. This would provide an indication for the suitability of the PortaCount for determining the workplace protection factor for particulate filtering facepiece respirators. Methods: The PortaCount (with and without the N95-Companion^TM) was compared with a stationary flame photometer from Moores (Wallisdown) Ltd (Type 1100), which is a measuring instrument used in the procedure for determining the total inward leakage of the particulate filtering facepiece respirator in the European Standard. Penetration levels of sodium chloride aerosol through sample respirators of two brands (A and B) were determined by the two measuring systems under laboratory conditions. For each brand, thirty-six measurements were conducted. The samples were split into groups according to their protection level, conditioning before testing, and aerosol concentration. The relationship between the gauged data from two measuring systems was determined. In addition, the particle size distribution inside the respirator and outside the respirator was documented. Linear regression analysis was used to calculate the association between the PortaCount (with and without the N95-Companion^TM) and the flame photometer. Results: A linear relationship was found between the raw data scaled with the PortaCount (without N95-Companion^TM) and the data detected by the flame photometer (R² = 0.9704) under all test conditions. The distribution of particle size was found to be the same inside and outside the respirator in almost all cases. Conclusion: Based on the obtained data, the PortaCount may be applicable for the determination of workplace protection factor.

• 대한기계학회논문집A
• /
• 제32권8호
• /
• pp.617-623
• /
• 2008

The membrane filter adhered with nanostructured porous layer was made by heat treatment after deposition of nanoparticle-agglomerates sintered in aerosol phase onto a conventional micron-fibrous metal filter as a substrate filter. The Sintered-Nanoparticle-Agglomerates-coated NanoStructured porous layer Membrane Filter (SNA-NSMF), whose the filtration performance was improved compared with the conventional metal membrane filters, was developed by adhesion of nanoparticle-agglomerates of dendrite structure sintered onto the micron-fibrous metal filter. The size of nanoparticle-agglomerates of dendrite structure decreased with increasing the sintering temperature because nanoparticle-agglomerates shrank. When shrinking nanoparticle-agglomerates were deposited and treated with heat onto the conventional micron-fibrous metal filter, pore size of nanostructured porous layer decreased. Therefore, pressure drops of SNA-NSMFs increased from 0.3 to 0.516 kPa and filtration efficiencies remarkably increased from 95.612 to 99.9993%.

• Korean Chemical Engineering Research
• /
• 제46권2호
• /
• pp.397-401
• /
• 2008

레이저 애블레이션에 의해서 가지상 구조체 형상인 나노입자 응집체를 합성하였다. 기존 마이크론 금속섬유 필터의 표면상에 나노입자 응집체를 고착하여 여과성능을 향상시켰다. 에어로졸 상에서 소결 처리된 나노입자 응집체를 증착한 후 열처리를 하여 나노구조체가 표면상에 형성된 소결 처리된 나노입자 응집체 고착 필터를 제작하였다. 소결 온도가 증가할수록 마이크론 금속섬유 필터 표면상에 고착된 나노입자 응집체의 표면적 증가로 인하여 차압은 조금 증가하지만 여과효율은 현저하게 증가하였다.

• 대한의용생체공학회:의공학회지
• /
• 제19권5호
• /
• pp.511-518
• /
• 1998

세기관지의 구조와 이상유무의 신속 정확한 측정을 위해 세계적으로 활발히 연구되고 있는 에어로졸볼러스기법을 확립하기 위하여, 호흡과정 중 흡기에 공급된 입자펄스가 호흡의 진행에 따라 인체기관지내에서 대류분산된 결과로 호기중 입자농도의 증가된 분포폭을 측정하는 장치를 개발하고 이를 이용한 검증실험을 수행하였다. 개발된 장치는 인체에 무해한 sebacic acid를 이용하여 평균입경이 1 $\mu$m이고 기하표준편차가 1.2정도인 임자를 $10^{9}$개/cc 정도의 고농도로 발생하고, 솔레노이드밸브를 이용하여 호흡중의 원하는 시점에 정확히 짧은 펄스형태로 입자를 공급하며, 레이저광산란을 이용하여 흡기와 호기중의 입자농도의 시간변화를 측정한다. 흡기중의 농도분포는 매우 매끈한 분포를 보임으로써 발생장치와 측정장치의 정강작동은 잘 검증되었다. 농도의 시간변화 측정치로부터 계산된 분산도를 1차원 대류확산방정식 이론치 및 외국에서 보고된 실험결과와 비교한 격과, 입자도달깊이에 따른 분산도의 변화에 대한 정성적인 실험결과는 이론치와 상당히 잘 일치하고 기존의 결과보다도 견과의 산포가 개선되었다. 다만 아직도 산포가 상당히 남아있어 개선의 여지를 가지고 있으며, 외국 결과와의 분산도의 타이는 신체조건의 타이 등으로 파악되었다. 산포도의 개선을 위해서는 호흡시에, 특히 최고농도점 부근에서, 호흡유량이 일정하게 유지되어야만 불규칙 이차파형의 형성을 방지하여 측정결과의 해석에 오차를 줄일 수 있음을 확인하였다.

• 한국입자에어로졸학회지
• /
• 제12권3호
• /
• pp.95-102
• /
• 2016

본 연구에서는 호흡용 보호구 필터의 나노물질에 대한 여과특성을 측정하기 위해서 소금(NaCl)과 은나노입자(Ag)를 대상으로 입경별 집진효율을 평가하였다. 호흡용 보호구 필터는 특급 방진마스크와 1급 방진마스크의 두 가지 안면부 여과식 방진마스크인 사용하였고, 마스크의 배기밸브 부분을 제외한 필터 여재 부분을 직경 47 mm로 잘라내어 필터홀더에 부착하여 입경별 입자제거효율을 시험하였다. 시험입자는 일반적으로 시험 입자로 사용되는 소금입자는 분무형 입자발생장치를 사용하여 발생하였고 중화기를 통과시켜 입자의 하전특성을 볼츠만 분포로 만들어 공급하였다. 은나노입자의 경우, 기화-응축 방법을 이용한 금속나노입자 생성방법인 ISO10801 방법을 사용하였다. 작업장의 은나노입자의 고농도 노출을 모사하기 위해, 중화기를 통과하지 않은 나노입자를 시험입자로 사용하였다. 은나노입자의 경우 소금입자로 만들기 어려운 20nm 이하의 입자를 안정적으로 효과적으로 만들어 시험에 적용하였고, 나노 크기에서도 매우 안정적인 데이터를 확보할 수 있었다. 1급 마스크 필터와 특급 마스크 필터에 대한 소금입자의 평가에서, 입경별 최소효율이 30~50nm 사이에서 나타나는 특성은 기존 연구와 비슷한 결과를 얻었다. 반면, 은나노입자의 경우 1급 마스크 필터와 특급 마스크 필터 모두에서 비슷한 크기의 소금 입자와 비교할 때 높은 효율을 나타냈다. 이것은 소금 입자의 경우 중화기를 통과시켜 시험입자로 사 용한 반면, 은나노입자의 경우 중화기를 통과시키지 않았기 때문이다. 본 연구에서는 작업장에서 은나노 입자가 고농도로 노출될 경우를 모사하여, 기화-응축에 의한 방법의 은나노입자 발생장치를 사용하였는데, 이 때 상대적으로 높게 대전된 입자들이 많이 만들어진다(Jung et al., 2006). 이로 인해, 정전필터인 마스크 필터의 포집 효과가 상대적으로 크기 때문에, 입경별 효율이 높아진 것으로 생각된다. 본 연구에서 평가한 1급 및 특급 방진마스크 여재의 최소 포집효율은 유럽 EN 149 기준인 95 LPM 유량 기준을 만족하는 것으로 나타났지만, 이것은 여재에 대한 평가 결과로, 실제 마스크에 대해서는 여재의 구조적인 불균일성이나 마스크를 착용하는 과정에서 밀착이 되지 않아 누출될 가능성은 마스크 사용에 고려되어야 한다. 불시에 발생할 수 있는 작업장 내 안전사고의 예방을 위하여 적절한 보호구의 선택과 올바른 착용 및 유지관리가 필요할 것으로 생각된다.

• Journal of Gastric Cancer
• /
• 제24권3호
• /
• pp.246-256
• /
• 2024

Purpose: Peritoneal carcinomatosis (PC) presents a major challenge in the treatment of late-stage, solid tumors, with traditional therapies limited by poor drug penetration. We evaluated a novel hyperthermic pressurized intraperitoneal aerosol chemotherapy (HPIPAC) system using a human abdominal cavity model for its efficacy against AGS gastric cancer cells. Materials and Methods: A model simulating the human abdominal cavity and AGS gastric cancer cell line cultured dishes were used to assess the efficacy of the HPIPAC system. Cell viability was measured to evaluate the impact of HPIPAC under 6 different conditions: heat alone, PIPAC with paclitaxel (PTX), PTX alone, normal saline (NS) alone, heat with NS, and HPIPAC with PTX. Results: Results showed a significant reduction in cell viability with HPIPAC combined with PTX, indicating enhanced cytotoxic effects. Immediately after treatment, the average cell viability was 66.6%, which decreased to 49.2% after 48 hours and to a further 19.6% after 120 hours of incubation, demonstrating the sustained efficacy of the treatment. In contrast, control groups exhibited a recovery in cell viability; heat alone showed cell viability increasing from 90.8% to 94.4%, PIPAC with PTX from 82.7% to 89.7%, PTX only from 73.3% to 74.8%, NS only from 90.9% to 98.3%, and heat with NS from 74.4% to 84.7%. Conclusions: The HPIPAC system with PTX exhibits a promising approach in the treatment of PC in gastric cancer, significantly reducing cell viability. Despite certain limitations, this study highlights the system's potential to enhance treatment outcomes. Future efforts should focus on refining HPIPAC and validating its effectiveness in clinical settings.

• 한국기계가공학회지
• /
• 제20권11호
• /
• pp.86-91
• /
• 2021

Recently, functional clothes that can reduce deposition and/or penetration of fine dust have been developed. However, there are no methods to quantitatively evaluate the performance of these clothes. In this study, we developed a method to contaminate a fabric using fine dust and established an approach to quantitatively assess the degree of particle contamination on the fabric surface. Silicate powder was chosen as the particle to simulate fine dust because silicate particles are fluorescent under UV light; therefore, they can be distinguished from any color of non-fluorescent fabric surface. A camera with a high-resolution lens system was used to scan the surface of the contaminated fabric surface, and the degree of particle contamination of the fabric surface was analyzed in terms of the pixels corresponding to the area of the fabric surface contaminated by silicate particles. Finished or unfinished nylon fabrics as well as cotton fabrics were contaminated with silicate particles, and their surfaces were scanned using the established camera. The proposed assessment method was found to be useful for quantitatively comparing the degree of particle contamination of the fabrics.