• Title/Summary/Keyword: Benzene

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Imaging and Manipulation of Benzene Molecules on Si Surfaces Using a Variable-low Temperature Scanning Tunneling Microscope

  • Hahn, J. R.
    • Bulletin of the Korean Chemical Society
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    • v.26 no.7
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    • pp.1071-1074
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    • 2005
  • A variable-low temperature scanning tunneling microscope (VT-STM), which operates from 77 to 350 K in ultrahigh vacuum, was built and used to study imaging and manipulation of benzene molecules on Si surfaces. Four types of benzene adsorption structures were first imaged on the Si(5 5 12)-2x1 surface. Desorption process of benzene molecules by tunneling electrons was studied on the Si(001)-2xn surface.

The Analysis of Chromosome Aberration in Workers Exposed to Low Level Benzene

  • Kim, Yangjee;Cho, Yoon-Hee;Chung, Hai-Won
    • Proceedings of the Korean Society of Toxicology Conference
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    • 2003.10b
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    • pp.147-147
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    • 2003
  • Human exposure to benzene is derived occupationally from the petrochemical and petroleum refining industries. This study was carried out to find whether the frequencies of chromosome aberrations in workers exposed to low level benzene in a petroleum factory were elevated compared to non-exposed workers.(omitted)

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Optimization of Benzene Synthesis for Radicarbon Dating by Response Surface Method

  • 나경임;강형태;김승원;최상원;김윤섭;김순옥
    • Bulletin of the Korean Chemical Society
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    • v.18 no.7
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    • pp.703-706
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    • 1997
  • Response surface method was applied to the predicting optimum conditions of benzene synthesis for radiocarbon dating. The weight of carbon dioxide, the temperature of lithium container for producing acetylene and the activation temperature of catalyst which was used for the cyclization of acetylene to benzene were used as experimental factors. The yields of benzene synthesis were measured from twelve experiments which were carried out under various experimental conditions. The polynomial equation was obtained by using three experimental factors and yields. The validity of polynomial equation was confirmed by comparing the calculated yields with the experimental ones.

Effects of Juakium-derivative on Hematopoietic Effects (좌귀음가미방(左歸飮加味方)이 조혈작용에 미치는 영향)

  • Park, Shin-Myoung;Kim, Young-Chul;Lee, Jang-Hoon;Woo, Hong-Jung
    • The Journal of Internal Korean Medicine
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    • v.23 no.2
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    • pp.212-221
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    • 2002
  • Objectives : Acording to the fact that Juakium has been frequently used in a lot of prescriptions to tonify bone marrow, We examined the hematopoietic effects of Juakium-derivative on aplastic anemia. Methods : After C57BL/6 mice were oral administrated with Juakium-derivative and injected with benzene, we counted the number of WBC, RBC, hemoglobin, platelet, nucleated cells and other erythroid parameters and weighed the spleen. Also we measured the expression of $CD34^+$ cell activity and analyzed the bone marrow tissue and spleen tissue histologically. Results : The results are summerized as follow: 1. The Juakium-derivative plus benzene group showed the improvement in the number of WBC, RBC, hemoglobin. platelet, nucleated cells and other erythroid parameters, compared with the benzene only group. 2. The spleen weight and the percent of $CD34^+$ cell of Juakium-derivative plus benzene group was higher, compared with the benzene only group. 3. The bone marrow tissue and spleen tissue of the Juakium-derivative plus benzene group showed the decrease of the infarcted area compared with the benzene only group. Conclusions : These results suggest that Juakium-derivative has hematopoietic effects on aplastic anemia induced by benzene through increasing the blood cells and stimulating the activity of $CD34^+$ cells. Therefore it is expected that Juakium-derivative can be used clinically to the patient with hematopoietic system disorder.

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Change of Sludge Consortium in Response to Sequential Adaptation to Benzene, Toluene, and o-Xylene

  • Park, Jae-Yeon;Sang, Byoung-In
    • Journal of Microbiology and Biotechnology
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    • v.17 no.11
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    • pp.1772-1781
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    • 2007
  • Activated sludge was sequentially adapted to benzene, toluene, and o-xylene (BTX) to study the effects on the change of microbial community. Sludge adapted to BTX separately degraded each by various rates in the following order; toluene>o-xylene>benzene. Degradation rates were increased after exposure to repeated spikes of substrates. Eleven different kinds of sludge were prepared by the combination of BTX sequential adaptations. Clustering analyses (Jaccard, Dice, Pearson, and cosine product coefficient and dimensional analysis of MDS and PCA for DGGE patterns) revealed that acclimated sludge had different features from nonacclimated sludge and could be grouped together according to their prior treatment. Benzene- and xylene-adapted sludge communities showed similar profiles. The sludge profile was affected from the point of the final adaptation substrate regardless of the adaptation sequence followed. In the sludge adapted to 50 ppm toluene, Nitrosomonas sp. and bacterium were dominant, but these bands were not dominant in benzene and benzene after toluene adaptations. Instead, Flexibacter sp. was dominant in these cultures. Dechloromonas sp. was dominant in the culture adapted to 50 ppm benzene. Thauera sp. was the main band in the sludge adapted to 50 ppm xylene, but became vaguer as the xylene concentration was increased. Rather, Flexibacter sp. dominated in the sludge adapted to 100 ppm xylene, although not in the culture adapted to 250 ppm xylene. Two bacterial species dominated in the sludge adapted to 250 ppm xylene, and they also existed in the sludge adapted to 250 ppm xylene after toluene and benzene.

Simultaneous Adsorption Characteristics of Binary-Component Volatile Organic Compounds (2성분계 휘발성유기화합물의 동시 흡착특성)

  • Park, Byung-Bae;Kim, Han-Su;Park, Yeong-Seong
    • Clean Technology
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    • v.7 no.2
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    • pp.133-140
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    • 2001
  • The adsorption characteristics of binary-component Volatile Organic Compounds(VOCs) with benzene and toluene were studied in a fixed bed backed with activated carbon. The adsorption intensites of benzene and toluene resulted from equilibrium adsorption capacity led to roll up phenomenon in a fixed bed and behaved benzene as non-key component which meant the smaller affinity to the activated carbon of the two. From comparion with breakthrough curves between binary-component and single component systems at the same concentration conditions, the stoichiomertic breakthrough time of toluene in both systems had no difference, but that of benzene as non-key component had a tendency to shorten 130min than 200min of single component. In the breakthrough characteristics of binary-component adsorbates, the magnitude of roll-up of the non-key component increased with the increasing of non-key component ratio and aspect ratio(L/D) of fixed bed, while decreased with the increasing of interstitial velocity. Especially, the roll-up phenomenon was more conspicuous with the increasing of mole fraction of key component.

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Application of Light-emitting-diodes to Annular-type Photocatalytic Reactor for Removal of Indoor-level Benzene and Toluene

  • Jo, Wan-Kuen;Kang, Hyun-Jung;Kim, Kun-Hwan
    • Journal of Environmental Science International
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    • v.21 no.5
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    • pp.563-572
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    • 2012
  • Unlike water applications, the photocatalytic technique utilizing light-emitting-diodes as an alternative light source to conventional lamp has rarely been applied for low-level indoor air purification. Accordingly, this study investigated the applicability of UV-LED to annular-type photocatalytic reactor for removal of indoor-level benzene and toluene at a low concentration range associated with indoor air quality issues. The characteristics of photocatalyst was determined using an X-ray diffraction meter and a scanning electron microscope. The photocatalyst baked at $350^{\circ}C$ exhibited the highest photocatalytic degradation efficiencies(PDEs) for both benzene and toluene, and the photocatalysts baked at three higher temperatures(450, 550, and $650^{\circ}C$) did similar PDEs for these compounds. The average PDEs over a 3-h period were 81% for benzene and close to 100% for toluene regarding the photocatalyst baked at $350^{\circ}C$, whereas they were 61 and 74% for benzene and toluene, respectively, regarding the photocatalyst baked at $650^{\circ}C$. As the light intensity increased from 2.4 to 3.5 MW $cm^{-1}$, the average PDE increased from 36 to 81% and from 44% to close to 100% for benzene and toluene, respectively. In addition, as the flow rate increased from 0.1 to 0.5 L $min^{-1}$, the average PDE decreased from 81% to close to zero and from close to 100% to 7% for benzene and toluene, respectively. It was found that the annular-type photocatalytic reactor inner-inserted with UV-LEDs can effectively be applied for the decomposition of low-level benzene and toluene under the operational conditions used in this study.

A Survey on Annual Exceedance Trends for the Domestic Permissible Exposure Limit for Benzene (벤젠의 국내 허용기준에 대한 연도별 초과 경향 연구)

  • Lee, Kyunghwa;Kim, Ki-Youn
    • Journal of Korean Society of Occupational and Environmental Hygiene
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    • v.28 no.2
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    • pp.144-150
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    • 2018
  • Objectives: The purpose of this study is to analyze the trend for exceedance of the domestic permissible exposure limit of benzene based on a review of the previous literature. Materials and methods: From among 13 chemical substances regulated through a PEL (Permissible Exposure Limit) in the Occupational Safety and Health Act, the research object of this study is benzene. The information utilized is work environment measurement data from 2004 to 2013. The highest level among the concentration data measured at various workplaces was selected as a representative value through the data process. N.D. (Not Detected) data was considered as 1/2 of the LOD (limit of detection). Results: Among the work environment measurement data between 2004 and 2013, the highest number of exceeding workplaces and the excess rate (12 sites and 5.4%) was observed in the 2006 data when applying the current PEL for benzene. When compared with the action level, which means a level one-half of the PEL, 2005's data showed the highest number of exceeding workplaces and greatest excess rate (89 sites & 13.3%). The number of exceeding workplaces and excess rate relative to the PEL for benzene showed an increasing trend in 2004, but tended to decrease after 2007. Conclusions: Based on the results obtained from this study, the exposure level for benzene among domestic workers is not considered to be in a safe phase regardless of the year of work environment measurement. Thus, strict preventive management in workplaces should be provided for reducing exposure to benzene.

Adsorption of Gaseous Benzene onto Mesoporous Silicates (메조포러스 실리케이트에 의한 기상 벤젠 흡착)

  • Lee, Chae Young;Moon, Nam Gu;Chung, Jin Suk;Shin, Eun Woo
    • Applied Chemistry for Engineering
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    • v.19 no.4
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    • pp.452-456
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    • 2008
  • Mesoporous silicate materials have been used as adsorbents due to the advantage of high specific surface area and regular mesopores. In this study, conventional mesoporous silicates (MCM-41, and SBA-15) were utilized as adsorbents for gaseous benzene, one of volatile organic compounds. In the results of the breakthrough curves of gaseous benzene, SBA-15 showed a higher benzene adsorption capacity in adsorption condition of this study. Especially, compared to benzene adsorption of zeolite X, that of SBA-15 was higher by a factor of 2.7. With increasing adsorption temperature, adsorption capacity for benzene of SBA-15 was decreased rapidly. This indicates that benzene adsorbed weakly on SBA-15.

Effect of Residence time on Mixed Benzene and Ethylene Degradation in Biofilters (Biofilter에서 체류시간이 혼합 벤젠과 에틸렌 분해에 미치는 영향)

  • 김종오
    • Journal of Soil and Groundwater Environment
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    • v.8 no.1
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    • pp.42-47
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    • 2003
  • A biofilter study was performed in order to remove mixed benzene and ethylene emitted from soil and groundwater remediation. In particular, more than 96% of ethylene was removed at residence times of 10~15 min, and the possibility of use of the biofilter was obtained. The benzene removal efficiency was achieved as much as 100% at residence times of 2~15 min. With a residence time of 15 min, the maximum elimination capacity of benzene and ethylene was 4.3 g/$\textrm{m}^3$hr and 1.4 g/$\textrm{m}^3$hr, respectively. The maximum elimination capacity of benzene was 3 times higher than that of ethylene. Carbon dioxide concentration decreased as residence times were lowered due to low ethylene degradation rate. The maximum carbon dioxide production rate of 3,169 [mg-$CO_2$/(g-${C_2}{H_4}$${C_6}{H_6$)] was investigated when benzene and ethylene were completely removed. It was found that dominant bacteria in the benzene-degrading microorganisms were identified as Bacillus mycoides and Pseudomonas fluorescens. Dominant bacteria in the ethylene-degrading microorganisms were identified as Pseudomonas putida and Pseudomonas fluorescens.