• Title/Summary/Keyword: 휘발제거율

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Reduction behavior of Zn, Pb, Cl, Fe, Cu and Cd compounds in EAF dust with carbon (탄소에 의한 전기로 분진 중 Zn, Pb, Cl, Fe, Cu 및 Cd화합물의 환원반응)

  • 이재운;김영진;서성규;이광학;김영홍
    • Resources Recycling
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    • v.9 no.4
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    • pp.3-15
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    • 2000
  • Reduction of Electric Arc Furnace dust with carbon (graphite) was studied at the temperature range of $800^{\circ}C$ to $1100^{\circ}C$ in Ar gas atmosphere. The briquetted dust with graphite powder was heated in a vertical tube furnace for given reaction time and Quenched in Ar gas atmosphere. It was found that initially the reduction of Zn was chemically controlled and the activation energy was about 120 KJ/mole. Because the almost all of Pb was removed with Cl in the form of $PbCl_2$, it is considered that Pb is removed by chloride reduction. Cu was vaporized as a chloride up to 30% of its original content, but the remaining of Cu would be accumulated with the reduced iron. and also, Cd was removed completely within 15 min. at $1000^{\circ}C$.

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체류시간과 온도에 따른 VOC제거에 관한 연구

  • 윤인길;조대원;김광하;박창호
    • Proceedings of the Korean Environmental Sciences Society Conference
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    • 2001.05a
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    • pp.59-61
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    • 2001
  • 휘발성 유기화합물로 오염된 가스 제거를 위한 최적 조건을 찾고자 VOC를 생물학적 처리방법 중 하나인 생물여과기를 이용하여 조사하였다. 100여일 운영 후, 25와 $45^{\circ}C$조건 보다 $32^{\circ}C$조건에서 휘발성 유기화합물의 분해력이 높게 나타났다. 생물여과기는 다양한 휘발성 유기화합물 농도와 EBRT 조건에서 약 100일간 운전되었으며, 최대 제거량 128 $g/m^{3}h$에서 113 $g/m^{3}h$ 임을 알 수 있었다. 휘발성 유기화합물은 체류시간 1~3 min에서 제거율이 30~96%까지 변화하는 것을 보여 주었다. 이상의 휘발성 유기화합물 중 일부는 심각한 환경문제를 야기시키므로 이들 휘발성 유기화합물을 완전 제거하거나 최소화시킬 수 있다면 생물여과 시스템은 안정성과 경제적 측면에서 매우 바람직하겠다. 본 연구 결과는 미생물을 이용한 생물여과법이 효과적인 처리 공정임을 보여주었고 혼합된 휘발성 유기화합물이 존재하더라도 그 성분을 동시에 분해할 수 있다는 결과를 보여 주었다.

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A Study on BTEX Removal Efficiency for Variation of Moistures by Microwave Process (유류오염토의 마이크로파 처리 시 토양의 함수율 변화에 따른 BTEX 제거특성에 관한 연구)

  • Ha, Sang-An;Yeom, Hae-Kyong;Yu, Mi-Yong
    • Journal of Soil and Groundwater Environment
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    • v.12 no.2
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    • pp.65-71
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    • 2007
  • This study has been focused on an application of microwave pre-treatment of soil contaminated with volatile organic chemicals, and BTEX(benzene, toluene, ethylene, xylene). Microwave experiments were carried out under different power conditions (2 kW, 4 kW) using different moisture contents and BTEX concentration. According to these results of this study, the most BTEX removal efficiency was with 20% moisture contents regardless of electric power. The result show that 2kW was determined to the optimum electric power at $10{\sim}30%$ moisture contents, but the optimum power was 4 kW at 50% of moisture content.

Removal of VOCs and H2S from Waste Gas with Biotrickling Filter (생물살수여과법을 이용한 공기중 VOC 및 H2S 제거)

  • Kim, Kyoung-Ok;Kim, Yong-Je;Won, Yang-Soo
    • Applied Chemistry for Engineering
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    • v.19 no.5
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    • pp.519-525
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    • 2008
  • Biodegradation of toluene, styrene and hydrogen sulfide as model compounds of volatile organic compounds and odor from waste gas was investigated experimentally in a biotrickling filter. This study focussed on the description of experimental results with regard to operating conditions. The effect of varying $H_2S$ load rate and inlet concentration was investigated under autotropic and mixotropic environmental conditions. The $H_2S$ removal efficiencies of greater than 99% were achieved at $H_2S$ loads below $10g/m^3{\cdot}hr$ for each environment. It was observed that the maximum elimination capacity of mixotrophic filter was achieved a little greater than the one of autotrophic filter. The biofiltration of toluene and styrene in trickling bed was examined under different gas flow rates, load rates, and inlet concentrations. Below $40g/m^3{\cdot}hr$ of toluene loading, the elimination capacity and loading were identical and it was completely destroyed. In high loading of toluene, the biotrickling filter was operated at its maximum elimination capacity. In the inlet concentration of 0.2, 0.5, and $1.0g/m^3$, the maximum elimination capacity of toluene showed 40, 45, and $60g/m^3{\cdot}hr$, respectively. After a short adaptation period, it was demonstrated that the results of styrene in originally toluene adapted bioreactor was similar with the ones of toluene. However, the performance of filer for styrene is generally a little lower than for toluene. The operating conditions (including liquid flow rate etc.) allowing the highest removal efficiency should be determined experimentally for each specific case.

A Study on the Removal of Toluene Gas by Biomembrane Filter in Activated Sludge Reactor (활성슬럿지조내의 침지형 Biomembrane Filter에 의한 Toluene Gas 제거에 관한 연구)

  • 하상안;강신묵
    • Proceedings of the Korea Air Pollution Research Association Conference
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    • 2000.04a
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    • pp.369-370
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    • 2000
  • 석유화학공업단지, 도장공업, 유기용제 제조공정에서 휘발성유기화합물인 가스상 물질이 다양하게 배출되어진다. VOCs 제거하기 위해서 흡착, 연소, 광촉매, 코로나방전에 의한 플라즈마기술 등이 제어기술로 응용되고 있다. 또한 Bio필터를 이용한 휘발성 유기화합물의 제어기술은 비용절감을 위해서 이용되어왔지만, 생물학적 제어기술을 효과적으로 적용하기 위해서는 가스의 농도, 물리적 특성, 온도변화, 함수율 등의 영향인자에 따라서 재거효율이 민감하게 반응하는 특성 때문에 여러 가지 단점을 내포하고 있다. (중략)

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Removal of NAPL from Aquifer Using Surfactant-enhanced Air Sparging at Elevated Temperature (승온조건의 SEAS(surfactant-enhanced air sparging) 기술을 이용한 대수층 NAPL(n-decane)의 휘발제거)

  • Song, Young-Su;Kwon, Han-Joon;Kim, Heon-Ki
    • Journal of Soil and Groundwater Environment
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    • v.14 no.6
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    • pp.87-94
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    • 2009
  • Surfactant-enhanced air sparging (SEAS) was developed to suppress the surface tension of groundwater prior to air sparging resulting in higher air saturation and larger contact area between NAPL and gas during air sparging. Larger contacting interface between NAPL and gas means faster mass transfer of contaminants from NAPL to gas phase. This new technique, however, is limited to relatively volatile contaminants because vaporization is its basic mechanism of mass transfer. In this study, SEAS was tested at an elevated temperature for a semi-volatile n-decane, which is expected not to be a good candidate of SEAS application due to its low vapor pressure at ambient temperature. Three sparging experiments were conducted using 1-dimensional column (5 cm id, 80 cm length) packed with sand; (1) ambient temperature ($23^{\circ}C$), column saturated with distilled water, (2) SEAS at ambient temperature ($23^{\circ}C$), for n-decane contaminated sand, (3) SEAS at elevated temperature ($73^{\circ}C$), for n-decane contaminated sand. Higher air saturation was achieved by SEAS compared to that by air sparging without surfactant application. The n-decane removal efficiency of SEAS at elevated temperature was significantly higher(> 10 times) than that of ambient SEAS. The n-decane concentrations in the gas effluent from column during SEAS at $73^{\circ}C$ are found to be 10 times of those measured at ambient temperature. Thus, SEAS technique can be applied for removal of semi-volatile contaminants provided that an appropriate technique for elevating aquifer temperature is available.

Characteristics of Volatile Compound Adsorption from Alcoholic Model Solution onto Various Activated Carbons (알코올모델용액을 이용한 여러 종류 활성탄의 휘발성화합물 흡착특성)

  • Park, Seung-Kook;Lee, Myung-Soo;Kim, Byung-Ho;Kim, Dae-Ok
    • Food Engineering Progress
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    • v.14 no.3
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    • pp.249-255
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    • 2010
  • Ten commercial activated carbons (ACs) prepared from four different sources (bamboo, wood, peat, and coal) were evaluated for their adsorptive efficiency of six volatile compounds (isoamyl alcohol, hexanal, furfural, ethyl lactate, ethyl octanoate, 2-phenyl ethanol) which were dissolved in a 30% alcoholic model solution. These six volatile compounds are frequently found in alcoholic beverages and possibly contribute to physiological hangover due to their high concentrations. They are also generally regarded as off-flavor compounds at certain levels in alcoholic beverages such as whisky and vodka. Two hundred mL of 30% alcoholic solutions containing these six volatile compounds were treated with 0.2 g of ACs while stirring for 16 hr; the treated solutions were then measured for their adsorptive efficiencies (or removal efficiencies) by gas chromatographic analysis using two different sampling methods (direct liquid injection and headspace-solid phase microextraction). The adsorptive efficiencies of the ACs varied depending on the identity of the volatile compounds and the source material used for making the ACs. Ethyl octanoate, 2-phenyl ethanol, and hexanal were removed at high efficiencies (34-100%), whereas isoamyl alcohol, ethyl lactate, and furfural were removed at low efficiencies (5-13%). AC prepared from bamboo showed a high removal efficiency for isoamyl alcohol, aldehydes (hexanal and furfural), and 2-phenyl ethanol; these major fusel oils have been implicated as congeners responsible for alcohol hangover.

Removal/Recovery of VOCs Using a Rubbery Polymeric Membrane (Rubbery 고분가 막을 이용한 휘발성 유기화학물의 제거 및 회수)

  • Cha, Jun-Seok
    • Membrane Journal
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    • v.6 no.3
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    • pp.173-181
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    • 1996
  • Common volatile organic compounds(VOCs) such as toluene and methanol were removed successfully from N$_{2}$ using a novel silicone-coated hollow fiber membrane module. This novel membrane is a thin film composite(TFC) and was highly efficient in removing VOCs selectively from a N$_{2}$ stream. This membrane had some innate advantages over other silicone-based membrane in that the selective barrier was ultrathin(~1 $\mu$m) and the porosity of the polypropylene substrate was high which leads to a low permeation resistance. The substram was very strongly bonded to the coating layer by plasma polymerization and can withstand a very high pressure. A small hollow fiber module having a length of 25cm and 50 fibers could remove 96~99% of toluene as well as methanol vapors when the feed flow rate was up to 60cc/min. The percent removal of VOCs were even higher when the feed inlet concentration was higher. This process is especially suitable for treating streams having a low flow rate and high VOCs concentration. The permeances of VOCs through this membrane was in the range of $4~30 \times 10^{-9}gmol/sec \cdot cm^{2}\cdot cmHg$ for both toluene and methanol, and nitrogen permeance was between $3~9 \times 10^{-10}gmol/sec \cdot cm^{2} \cdot cmHg$. High separation factor between 10~55 for toluene/N$_{2}$ and 15~125 for methanol/N$_{2}$ were obtained depending on the feed flow rate ranges and feed VOCs concentration levels.

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The study of catalytic combustion of VOCs (휘발성 유기염소화합물의 촉매연소 연구)

  • Lee, Keon-Joo
    • Journal of the Korea Organic Resources Recycling Association
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    • v.14 no.1
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    • pp.169-177
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    • 2006
  • In this study, it was studied that the removal rate of VOC by the catalytic combustion. The combustion temperature was changed by the contact type of VOC(space velocity and catalyst depth) and the space velocity(SV) was defined by the rate of gas volume flow rate(Q, $m^3/hr$) over volume(V, $m^3$) of catalyst (SV=Q/V). The space velocity of catalytic combustor is maintained $10,000{\sim}50,000hr^{-1}$. it was studied that the conversion rate of VOC by the catalytic combustion. The combustion temperature was changed by the contact type of VOC and catalyst and the space velocity was defined by the rate of gas volume flow rate over volume of catalyst. The VOC which pass thru the heat exchanger was measured by the hydro ionic detector and measured the VOC removal rate by the activated catalyst in the reaction temperature range of 373K-423K. The removal rate was measured over 100 times. In the automobile painting booth The VOC concentration was 63.37ppm and the removal rate was 70 % at 373K and 78.92% at 423K. The removal rate was increased as increased the temperature.

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Stabilization of Soil Moisture and Improvement of Indoor Air Quality by a Plant-Biofilter Integration System (식물-바이오필터에 의한 토양수분 안정화 및 실내 공기질 향상)

  • Lee, Chang Hee;Choi, Bom;Chun, Man Young
    • Horticultural Science & Technology
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    • v.33 no.5
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    • pp.751-762
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    • 2015
  • This study was performed to investigate the stability of soil moisture in controlling air ventilation rate within a horizontal biofilter, and to compare removal efficiency (RE) of indoor air pollutants including fine dust, volatile organic compounds (VOCs), and formaldehyde (HCHO), depending on whether dieffenbachias (Diffenbachia amoena) were planted in the biofilter. The relative humidity, air temperature, and soil moisture contents showed stable values, regardless of the presence of D. amoena, and the plants grew normally in the biofilter. REs for number of fine dust particles (PM10 and PM2.5) within the biofilter filled with only soil were at least 30% and 2%, respectively. REs for number of fine dust particles (PM10 and PM2.5) within the biofilter including the plants were above 40% and 4%, respectively. RE for fine dust (PM10) weight was above 4% and 20%, respectively, in the biofilter containing only soil or soil together with plants. In the case of the biofilter filled with only soil, REs for xylene, ethylbenzene, toluene or total VOC (T-VOC) were each more than 63%; however, REs for benzene and formaldehyde (HCHO) were above 22% and 38%, respectively. In the biofilter with the plants, REs for xylene, ethylbenzene, toluene, and T-VOC were each above 72%, and REs for benzene and HCHO were above 39%. Thus, RE of the biofilter integrated with plants was found to be higher for volatile organic compounds than for fine dust. Hence, the biofilter was very effective for indoor air quality improvement and the effect was higher when integrated with plants.