• 제목/요약/키워드: Aerosol surface area

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분무열분해 공정에 의한 규산수용액으로부터 다양한 미세기공을 갖는 실리카 나노다공체 제조 (Preparation of Nanoporous Silica Particles containing Various Pore Sizes from Silicic Acid by Spray Pyrolysis)

  • 김선경;이총민;장한권;장희동
    • 한국입자에어로졸학회지
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    • 제12권3호
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    • pp.65-72
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    • 2016
  • Nanoporous $SiO_2$ particles containing different pore volume and size were prepared from silicic acid by a spray pyrolysis. The pore size, pore volume and particle size could be controlled with varying the precursor concentration, reaction temperature, and amount of organic templates such as Urea and poly ethylene glycol (PEG). The pore size distribution, pore volume and specific surface area of as-prepared particles were analyzed by BET and BJH methods, and the average particle sizes were measured by a laser diffraction method. The nanoporous $SiO_2$ particles ranged $0.6-0.9{\mu}m$ in diameter were successfully synthesized and the average particle size increased as the silicic acid concentration increased. The morphology of nanoporous $SiO_2$ particles was spherical and pores ranged 1 - 40 nm in diameter were measured in the particles. In case of Urea added into silicic acid, it showed no much difference in the morphology, pore size and pore volume at different Urea concentration. On the other hand, when PEG was added, it was clearly observed that pore diameter and pore volume of the particles surface increased with respect to PEG concentration.

마이크로-필터 상에 소결 처리된 금속 나노입자 고착에 의한 나노기공체 금속 필터 개발 (Development of Metal Filter with Nanoporous Structure by Adhesion of Metal Nanoparticles Sintered onto a Micor-Filter)

  • 이동근;박석주;박영옥;류정인
    • Korean Chemical Engineering Research
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    • 제46권2호
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    • pp.397-401
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    • 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.

섬유소재의 미세먼지 오염도 평가 방법 개발에 관한 연구 (Method to Evaluate Fabric Contamination Due to Fine Dust)

  • 황소영;권진경;김영실;최은진;김다진;김민;육세진
    • 한국기계가공학회지
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    • 제20권11호
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    • pp.86-91
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    • 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.

공기연소 분위기와 순산소 연소 분위기에서 입자 크기와 습도가 $CaCO_3$ 흡착제 입자의 반응특성에 미치는 영향 분석 (Analysis of the Effect of Particle Size and Humidity on Reaction Characteristics of $CaCO_3$ Sorbent Particle under Air and $O_2/CO_2$ Atmospheric Conditions)

  • 정성하;이강수;길상인;윤진한;김상수
    • 한국입자에어로졸학회지
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    • 제10권2호
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    • pp.75-82
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    • 2014
  • It is necessary to find out the reaction characteristics of $CaCO_3$ sorbent particles in air and $O_2/CO_2$ atmospheric conditions in order that an in-furnace desulfurization technique can be applied to oxy-fuel combustion system. In this study, rate of change of GMD(geometric mean diameter) and specific surface area of $CaCO_3$ sorbent particles reacted in DTF(drop tube furnace) experimental setup were analyzed to investigate the effect of particle size and humidity on the reaction characteristics of them. In air atmospheric condition, calcination process occurs actively within shorter residence times as the particle size increases. On the contrary, in $O_2/CO_2$ atmospheric condition, a calcination process is delayed as particle size increases. The increment of humidity accelerates calcination process in an air atmospheric condition and increase rate of calcination in an $O_2/CO_2$ atmospheric condition.

화염분무열분해법을 이용한 이산화세륨 나노분말 제조 (Preparation of CeO2 Nanoparticles using Flame Spray Pyrolysis)

  • 김선경;박수련;장한권;장희동
    • 한국입자에어로졸학회지
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    • 제12권2호
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    • pp.37-42
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    • 2016
  • $CeO_2$ nanoparticles were prepared by a flame spray pyrolysis from aqueous solution of cerium nitrate. The morphology, structure crystallinity and specific surface area of as-prepared nanoparticles were characterized by transmission electron microscopy (TEM), X-ray diffraction (XRD), and Brunauer-Emmett-Telle (BET). The $CeO_2$ nanoparticles about 5 nm in diameter showed a cubic fluorite structure and polyhedral morphology. The average particle size increased as the cerium nitrate concentration increased. UV absorption performance of the as-prepared nanoparticles was measured by UV-visible spectroscopy. UV absorption of $CeO_2$ nanoparticles was more effective than that of commercial $TiO_2$ nanoparticles. Effect of dopants such as Ti and Zn to $CeO_2$ nanoparticles on UV absorption properties was also investigated. In case of $Ti/CeO_2$, and $Zn/CeO_2$ nanoparticles, they showed a little higher UV absorption values compared with $CeO_2$ nanoparticles. The as-prepared nanoparticles can be promising materials with high UV absorption value.

활성탄을 포함하는 몇 가지 흡착제의 동공부피 분포와 이들의 흡착제에 대한 타르, 유기산 등 연초 에어로솔 성분의 흡착률과의 관련성 (A Study on the Relationship between the Pore Volume Distributions of Some Adsorbents Including Charcoal and the Rates of Adsorption of a Number of Cigarette Aerosol Ingredients such as Tar, Nicotine and etc.)

  • 강익균;한상현;김용권;차은희
    • 대한화학회지
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    • 제33권4호
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    • pp.350-356
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    • 1989
  • 타르, 니코틴 등 몇 가지 연초 에어로솔 성분의 흡착거동을 해석한 결과 비교적 저비점 피흡착질의 흡착률은 축적 동공부피의 증가와 더불어 증가하였다. 반면 비교적 고비점 피흡착질의 흡착률은 보다 작은 반경의 동공부피가 증가할수록 감소하였다. 여기에 사용된 흡착제는 활성탄, 실리카겔, 알루미나 및 활성백토이었다. 비표면적이 큰 흡착제가 보다 큰 흡착률을 가진다는 일반적인 경향은 고비점 피흡착질에 대해서는 성립되지 않았다. 이상의 결과는 위의 흡착거동을 탈착등온식을 기초로 하여 동공부피분포와 관련시켜 검토하므로써 얻어진 것이다.

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분무열분해 공정을 이용한 메조기공을 가지는 실리카 구형입자의 제조 (Preparation of Mesoporous and Spherical-shaped Silica Particles by Spray Pyrolysis)

  • 백철민;정경열;박균영;박승빈;조성백
    • Korean Chemical Engineering Research
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    • 제46권5호
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    • pp.880-885
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    • 2008
  • 분무열분해 공정을 이용하여 규칙적인 메조기공을 가지는 실리카 분말을 제조하고 고표면적을 얻기 위한 합성조건을 최적화하였다. 주형제로 이용된 CTAB의 양과 액적들의 반응기 내에서 체류시간을 변화시켜주면서 입자를 제조하고 SEM, BET, SAXS, 그리고 DLS를 통해 분말특성을 조사하였다. 기체 유입속도를 고정하고 CTAB/TEOS 몰비를 0.05에서 0.30으로 변화시킴에 따라 비표면적은 200에서 $1,290m^2/g$으로 변화였다. CTAB/TEOS 몰비를 고정했을 때 입자의 비표면적은 기체의 유입속도에 따라 1,062에서 $1,305m^2/g$ 사이에서 변화되었다. 제조된 입자들의 BJH 탈착에 의한 평균 기공 크기는 $21{\sim}23{\AA}$를 가졌으며, CTAB/TEOS 몰비나 기체 유입속도에 크게 영향을 받지 않았다. 최대 표면적은 CTAB/TEOS 비를 0.2, 기체 유속을 20 l/min으로 했을 때 $1,305m^2/g$를 얻었다. 제조된 실리카 분말은 육방형구조의 규칙적인 기공에 기인한 $2{\theta}=2.6^{\circ}$ 강한 피크와 $2{\theta}=4.4$$5.1^{\circ}$ 약한 피크를 가지는 것을 SAXS 분석결과로 확인하였다. 제조된 실리카 분말은 구형의 형상을 가졌으며 $1.0{\mu}m$의 평균크기를 가졌다.

산화알루미늄 섬유와 니켈분말 후처리공정에서 입자의 노출특성 (Exposure Characteristics of Particles during the After-treatment Processes of Aluminum Oxide Fibers and Nickel Powders)

  • 김종범;김경환;류성희;윤성택;배귀남
    • 한국산업보건학회지
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    • 제26권2호
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    • pp.225-236
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    • 2016
  • Objectives: Nanomaterials have been used in various fields. As use of nanoproducts is increasing, workers dealing with nanomaterials are also gradually increasing. Exposure assessments for nanomaterials have been carried out for protection of worker's health in workplace. Exposure studies were mainly focused on manufacturing processes, but these studies on after-treatment processes such as refinement, weighing, and packing were insufficient. So, we investigated exposure characteristics of particles during after-treatment processes of $Al_2O_3$ fibers and Ni powders. Methods: Mass-production of Ni powder process was carried out in enclosed capture-type canopy hood. In a developing stage, $Al_2O_3$ was handled with a local ventilation unit. Exposure characteristics of particles were investigated for $Al_2O_3$ fiber and Ni powder processes during the periods of 10:00 to 16:00, 20 May 2014 and 13:00 to 16:00, 21 May 2014, respectively. Three real-time aerosol instruments were utilized in exposure assessment. A scanning mobility particle sizer(SMPS, nanoscan, model 3910, TSI) and an optical particle counter(OPC, portable aerosol spectrometer, model 1.109, Grimm) were used to determine the particle size distribution in the size range of 10-420 nm and $0.25-32{\mu}m$, respectively. In addition, a nanoparticle aerosol monitor(NAM, model 9000, TSI) was used to measure lung-deposited nanoparticle surface area. Membrane filters(isopore membrane filter, pore size of 100 nm) were also used for air sampling for the FE-SEM(model S-5000H, Hitachi) analysis using a personal sampling pump(model GilAir Plus by 2.5 L/min, Gilian). Conclusions: For Ni powder after-treatment process, only 27% increase in particle concentration was found during the process. However, for $Al_2O_3$ fiber after-treatment process, significant exposure(1.56-3.34 times) was observed during the process.

전기가열 튜브로를 이용한 나노/서브마이크론 입자의 발생 (Generation of Nano/Submicron Particles Using an Electrically Heated Tube Furnace)

  • 지준호;배양일;황정호;배귀남
    • 대한기계학회논문집B
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    • 제27권12호
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    • pp.1734-1743
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    • 2003
  • Aerosol generator using an electrically heated tube furnace is a stable apparatus to supply nanometer sized aerosols by using the evaporation and condensation processes. Using this method, we can generate highly concentrated polydisperse aerosols with relatively narrow size distribution. In this work, characteristics of particle size distribution, generated from a tube furnace, were experimentally investigated. We evaluated effects of several operation parameters on particle generation: temperature in the tube furnace, air flow rates through the tube, size of boat containing solid sodium chloride(NaCl). As the temperature increased, the geometric mean diameter increased and the total number concentration also increased. Dilution with air affected the size distribution of the particles due to coagulation. A smaller sized boat, which has small surface area to contact with air, brings smaller particles of narrow size distribution in comparison of that of a larger boat. Finally, we changed the electrical mobility diameter of aggregate sodium chloride particles by varying relative humidity of dilution air, and obtained non-aggregate sodium chloride particles, which are easy to generate exact monodisperse particles.

수도권 일부 대형상가 지상주차장 및 지하주차장의 공기중 디젤엔진배출 입자상물질의 공기중 농도 비교 (Comparison of Diesel Exhaust Particle Concentration between Large Above-Underground Parking Lots)

  • 김부욱;송동우
    • 한국산업보건학회지
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    • 제23권4호
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    • pp.323-332
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    • 2013
  • Objectives: This study was conducted in order to investigate the diesel exhaust particle(DEP) concentrations in the thirteen parking lots of large shopping complex. Methods: The real-time black carbon(BC) concentration was determined using an Aethalometer, and elemental/organic carbon concentration was determined according to the method of the National Institute for Occupational Safety and Health(NIOSH) 5040. The particle number concentration(NC), lung deposited surface area concentration(LDSA) and geometric mean diameter(GMD) were determined using a DiSCmini aerosol monitor. Results: The average concentration of BC, EC, OC, NC, LDSA and GMD were $19.1{\mu}g/m^3$, $12.6{\mu}g/m^3$, $51.5{\mu}g/m^3$, $94,000particles/cm^{-3}$, $298{\mu}m^2/cm^{-3}$ and 57 nm in all parking lots, respectively, approximately 3-fold higher than those found in the urban outdoor. The average concentration of BC were $21.3{\mu}g/m^3$ in underground parking lots, 3-fold higher than above parking lots. Conclusions: Therefore, the parking lots at the large shopping complex can be considered a potentially dangerous environment with a high concentration of DEP nanoparticles.