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Sodium Dodecylbenzene Sulfonate 수용액의 분해반응에서 초음파 효과
임봉빈,Yim, Bong-Been 대한화학회 2004 대한화학회지 Vol.48 No.6
계면활성제 중 sodium dodecylbenzene sulfonate(DBS) 수용액에 초음파(200 W, 6 $W/cm^2$)를 조사하여 주파수, 용존가스 및 농도에 따른 분해경향을 조사하였다. 주파수에 따른 초음파 분해속도는 50 kHz와 600 kHz보다 200 kHz에서 가장 빠른 것으로 나타났다. 200 kHz의 초음파를 이용한 DBS의 분해반응에서는 산소를 이용하였을 때 가장 빠른 분해속도를 나타내었으며, 질소의 경우가 가장 늦은 분해속도를 나타내 초음파반응에 사용된 용존가스(산소, 공기, 질소, 아르곤, 헬륨)의 물리적성질과 활성라디칼의 생성에 의해 분해속도가 달라졌음을 알 수 있다. DBS의 농도에 따른 초음파분해 경향을 보면, 1 mM 까지 분해속도의 감소가 뚜렷하게 나타났으며, DBS의 critical micelle concentration(3 mM) 부근을 기준으로 분해속도의 변화가 거의 나타나지 않아 계면활성제의 미셀형성이 초음파에 의해 유도되는 라디칼에 의한 산화반응과 버블계면에서의 열분해반응에 영향을 미치는 것으로 생각된다. The influence of ultrasound frequency, dissolved gases, and initial concentration on the decomposition of sodium dodecylbenzene sulfonate(DBS) aqueous solution was investigated using ultrasound generator with 200 W ultrasound power. The decomposition rates at three frequencies(50, 200, and 600 kHz) examined under argon atmosphere were highest at 200 kHz. The highest observed decomposition rate at 200 kHz occurred in the presence of oxygen followed by air and argon, helium, and nitrogen. The effect of initial concentration of DBS on the ultrasonic decomposition was decreased with increasing initial concentration and would depend upon the formation of micelle in aqueous solution. It appears that the ultrasound frequency, dissolved gases, and initial concentration play an important role on the sonolysis of DBS. Sonolysis of DBS mainly take place at the interfacial region of cavitation bubbles by both OH radical attack and pyrolysis to alkyl chain, aromatic ring, and headgroup.
연구논문 : 항공기 소음모델의 정합성 평가를 통한 소음지도 작성
임봉빈 ( Bong Been Yim ),김주인 ( Joo In Kim ),이규성 ( Kyu Sung Lee ),홍현수 ( Hyun Su Hong ),김선태 ( Sun Tae Kim ) 한국환경영향평가학회 2012 환경영향평가 Vol.21 No.6
Aircraft noise model such as FAA Integrated Noise Model(INM) has recently been used for forecasting the impact of noise in a residential area near an airport and quantifying the effect of various options for noise mitigation. The noise modeling should be reliable and precise in order to ensure the quality of the results provided. In this study, the validation of the noise levels simulated by the INM against measurement data recorded continuously at multiple monitoring sites was discussed. As a result of validation, the quality of the input data used as a fixed point profiles for the INM was enhanced. The noise contour maps were designed as a way to evaluate the aircraft noise of the vicinity of the airfield. The results of this study indicate that the validation of aircraft noise model by the measurement data would be required for the accurate assessment of the aircraft noise levels.
폐수의 악취측정을 위한 금속산화물 반도체 및 전기화학식 가스센서 어레이 특성 평가
임봉빈 ( Bong Been Yim ),이석준 ( Seok Jun Lee ),김선태 ( Sun Tae Kim ) 한국센서학회 2015 센서학회지 Vol.24 No.1
This study aimed to evaluate the characterization of a metal oxide semiconductor and electrochemical gas sensor array for measuring wastewater odor. The sensitivity of all gas sensors observed in sampling method by stripping was 6.7 to 20.6 times higher than that by no stripping, except sensor D (electrochemical gas sensor). The average reduction ratio of sensor signal as a function of initial dilution rate of wastewater was in the order of food plant > food waste reutilization facility > plating plant. The sensitivity of gas sensors was dependent on both the type of wastewater and the dilution rate. The sensor signals observed by the gas sensor array were correlated with the dilution factor (OU) calculated by the air dilution sensory test with several wastewater (r2=0.920~0.997), except the sensor signals of sensor D measured in the plating plant wastewater. It seems likely that the gas sensor array plays a role in the evaluation of odor in wastewater and is useful tool for on-site odor monitoring in the wastewater facilities.
임봉빈,김선태,平井恭三,前田泰昭 한국대기환경학회 2003 한국대기환경학회지 Vol.19 No.3
The sonolytic decomposition of chlorofluorocarbon(CFC 113) and several alternative compounds, such as HCFC 225 ca, HCFC 225cb, and HFC 134a, in aqucous solutions was investigated. The CFC 113 with a high volatility and a low solubility in water was rapidly decomposed with increasing sonication time. The decomposition rates were influenced by the initial concentration of CFC 113, the reaction temperature, and the gas/liquid phase volume ratio but were independent of the pH of solution. The predominant pathway of the decomposition of CFC 113 by sonocation was not the oxidation by OH radicals but the pyrolysis with high temperature and pressure inside of the cavitation bubble. The pyrolysis in the cavitation bubble resulted in an almost complete mineralization of CFC 113 with the high efficient formation of inorganic products(Cl^(-), F^(-), CO, CO₂). The addition of zine powder on the decomposition of CFC 113 by sonication caused an acceleration of the decomposition. Also, HCFCs and HFC 134a were found to be readily decomposed by the pyrolysis induced from the sonication.
임봉빈,김선태 한국환경과학회 2002 한국환경과학회지 Vol.11 No.7
The effects of noble gas (such as helium, neon, argon, krypton, and xenon) on the sonolytic decomposition of water and 2-methyl-2-propanol(t-butanol) with 200 ㎑ high power ultrasound were investigated. The physical properties of the noble gas have an effect on the formation rate of products (H_2O_2, H_2, O_2) and the decomposition rate on the sonolytic decomposition of water. The pyrolysis products, such as methane, ethane, ethylene, and acetylene are formed during the sonolytic decomposition of t-butanol. From the estimation of the ratio [C_2H_4 + C_2H_2] / [C_2H_6], the cavitation temperature would be varied by the used noble gas. In all cases for the sonolytic decomposition of water, t-butanol, and diethyl phthalate, the decomposition rates were xenon > krypton > argon > neon > helium with a significant difference and were closely correlated with the formation rate of OH radical and high temperature inside the cavitation bubble under each noble gas.