• Applied Biological Chemistry
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• v.30 no.1
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• pp.71-76
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• 1987

The mutagenicity and desmutagenicity on enzymatic browning reaction products which obtained from prunes salicina (yellow) enzyme and polyphenol compounds were carried out. In the rec-assay on Bacillus subtilis strains H17 and M45, the enzymatic browning reaction products of pyrogallol, hydroxyhydroquinone, 3,4-dihydroxytoluene and catechol of $10^{-2}M$ did not showed mutagenicity. In the effects of various metal ions on the rec-assay, the enzymatic browning reaction products of pyrogallol showed mutagenic activity by $Fe^{3+},\;Mn^{2+},\;Zn^{2+},\;Ni^{2+}$ and $Al^{3+}$. In the enzymatic browning reaction products of hydroxyhydroquinone, $Cu^{2+},\;Mn^{2+}$ and $Pb^{2+}$ were effected in mutagenic action and the enzymatic browning reaction products of catechol was effected in mutagenic action by $Mn^{2+}$. In the DNA-breaking action of enzymatic browning reaction products of pyrogallol, hydroxyhydroquinone, 3,4-dihyroxytoluene and catechol did not show, DNA-breaking action. In the effects of various metal ions on the DNA-breaking action of enzymatic browning reaction products, $Cu^{2+}$ showed DNA-breaking action. In the mutagenicity test on Sal. typhimurium strains TA98 and TA 100 with S-9 mix, 4 kinds of browned substances did sot shove muragenicity, all the browned substances showed strong desmutagenic activity in the presence of benzo $({\alpha})-pyrene$ with S-9 mix.

• Membrane Journal
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• v.13 no.4
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• pp.268-282
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• 2003

Pervaporation-facilitated esterification with slow reaction regime was characterized by using a practical model based on non-perfect separation through membrane. A non-perfect separation in which the membrane is not perfectly permselective to water was applied to the model. Thus, membrane selectivity and membrane capability to remove water were included in the simulation model to explain how they influence the membrane-facilitated reaction process and improve the reactor performance. It was shown by simulation that in the reaction systems with non-perfect separation, reaction completion can hardly be achievable when any reactant at initial molar ratio=1 or the less abundant reactant at initial molar ratio>1 permeates through membrane, and the permeation of ester accelerates the forward reaction md increase reaction conversion at any instant through removal of product species like water. The volume change causes concentrating both reactants and products that affect the reaction with time in opposite ways; reactant-concentrating effect is dominant during the initial stage of reaction, increasing the reaction rate, and then concentrating product influences more reaction by decreasing the reaction rate.

• 한국신재생에너지학회:학술대회논문집
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• 2008.05a
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• pp.468-470
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• 2008

열중량반응기와 미분반응기를 이용하여 ABS의 열분해 및 생성물분포 특성을 연구하였으며 미분반응기를 이용한 실험의 열분해온도는 $410{\sim}450^{\circ}C$이었다. 각 상의 열분해생성물의 수율은 무게측정을 통해 얻었으며 액상생성물의 탄소수분포는 GC-SIMDIS 방법을 통해 측정하였다. 열중량 분석실험에서는 측정할 수 없었던 다량의 고상잔류물의 생성을 회분식 미분반응기실험을 통해 확인할 수 있었다. 반응온도와 시간이 증가할수록 액상생성물의 수율과 평균분자량은 감소하였으나 액상생성물 중의 스티렌모노머의 생성은 두드러지게 증가하였다. ABS 열분해 반응에서 말단절단의 속도계수인 활성화에너지 값은 54.1kcal/mole이었다.

• Proceedings of the Korea Association of Crystal Growth Conference
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• 1997.10a
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• pp.51-55
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• 1997

이트륨 옥살레이트 결정화에 있어서 반응물의 농도, 반응 온도, 반응물의 주입속도 변화등의 반응조건(reaction condition)의 변화와 반응기 내에서의 교반속도와 같은 hydrodynamic condition의 변화가 생성된 옥살레이트 결정의 입자크기, 결정형태등에 미치는 영향을 체계적으로 관찰하였다. 그리고 agglomeration의 영향에 의한 particle의 크기변화에 있어 생성물의 과포화는 agglomerates를 결정 짓는 가장 중요한 변수이다. 또한 반응성 결정화에 의해서 얻어진 Yttrium Oxalate가 온도 변화에 따라서 Yttrium Oxide로 열분해되는 온도구간과 결정구조의 변화 및 분자 구조의 변화를 관찰하여 최종의 Yttrium Oxide가 생성되는 것을 확인하였다.

• Applied Chemistry for Engineering
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• v.7 no.3
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• pp.473-480
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• 1996

Synthesis of n-perfluorooctanesulfonyl fluoride(n-PFOSF), which is valuable precursor perfluoro-chemicals, was studied by electrochemical fluorination(ECF). Of prime concern was to investigate the cyclic voltamograms of Ni electrode in anhydrous hydrogen fluoride(AHF) with and without the reactants and to measure fluorine evolution potential. In a batch cell, chronoampherometric electrolysis and various chemical analysis such as GC, GC/MS and IR were used to understand the amphere change of electrode and the reaction paths. Fluorine equilibrium potential was found to be about 2.8V(vs. $Cu/CuF_2$) from the cyclic voltammograms and decay curves of anode potential in AHF. In batch processes, the ECF proceeded in two distinguished steps. The first step proceeded electrochemically and the second one chemically. Under 7V(vs. $Cu/CuF_2$), amount of crude products was proportional to the applied anode potential. Above 7V(vs. $Cu/CuF_2$), it had a hundred percentage with weight ratio of reactants and productivity of PFOSF was almost constant.

• Proceedings of the Membrane Society of Korea Conference
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• 1997.10a
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• pp.53-60
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• 1997

1. 서론 : 촉매막기술은 반응과 분리공정을 동시에 하나의 장치에서 수행할 수 있기 때문에 한 개의 공정을 줄일 수 있는 효과적인 에너지 절약형 기술이다. 생성물중의 적어도 하나가 선택적으로 막을 통해 투과되기 때문에 가역반응의 경우에는 비가역반응에 가까운 거동을 보이게 된다[1-5]. 본 연구는 12-텅스토인산($H_3PW_{12}O_{40}$)를 촉매로 사용하고 막반응시를 비활성촉매막반응기(IMRCF, Inert membrane reactor with catalyst in the feed side)형태, 막으로는 PSF(Polysulfone), PPO(Polyphenylene Oxide)를 사용하여 MTBE(Methyl tert-butyl ether)분해반응을 모사하였다. 막반응기에서 생성된 생성물을 선택적으로 분리해냄으로 인하여 전환율은 고정층보다 증가하였는데 반응온도가 증가할수록, 반응물의 분압은 낮을수록 증가하였다. 반응온도가 높아짐에 따라 막반응기에서의 전환율은 고정층반응에서 나타나는 전환율과의 차이가 줄어드는 것을 볼 수 있었다. 위와같은 결과에 따라서 MTBE 반응물의 분해로 생성되는Isobutene의 수율이 90$\circ$C 이상의 반응온도에서 촉매/반응물비에 대한 최적조건이 나타나는 것을 알 수 있었다.

• Journal of Energy Engineering
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• v.10 no.1
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• pp.49-54
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• 2001

최근 자동차용 청정 연료로서의 이용 가능성으로 주목받는 디메틸에테르를 액상 혼합 반응기에서 직접 합성 가스로부터 합성하였다. 메탄올 함성촉매와 감마알루미나의 혼성촉매를 사용한 결과, $H_2$/CO=1일 때, 메탄올 함성 촉매와 탈수촉매의 비가 8:2인 경우, 가장 높은 메탄옥 환산 생산량을 보였다. 또한 공간속도의 변화에 따른 디메틸에테르, 메탄올, 이산화탄소, 메탄 등 각 생성물에 대한 선택도의 변화는 거의 없이 일정하였다. 메탄옥 합성 반응 촉매만을 사용한 경우, 생성물 중 각 성분의 선택도는 반응가스의 공간속도에 따라 달라졌는데, 반응가스의 공간속도가 작아지면 생성물 중 디메틸에테르의 선택도는 변화가 없었으나, 이산화탄소의 발생량이 많고 메탄올의 생성이 적어졌다. 동일한 반응 조건에서 액상 반응과 시강 반응을 비교한 결과, DME 수율이 액상의 경우가 더 높았다.

• Clean Technology
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• v.16 no.3
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• pp.198-205
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• 2010

Two sets of thermal reaction experiment for chlorinated hydrocarbons were performed using an isothermal tubular-flow reactor in order to investigate thermal decomposition, including product distribution of chlorinated hydrocarbons. The effects of $H_2$ or Ar as the reaction atmosphere on the thermal decomposition and product distribution for dichloromethane($CH_2Cl_2$) was examined. The experimental results showed that higher conversion of $CH_2Cl_2$ was obtained under $H_2$ atmosphere than under Ar atmosphere. This phenomenon indicates that reactive-gas $H_2$ reaction atmosphere was found to accelerate $CH_2Cl_2$ decomposition. The $H_2$ plays a key role in acceleration of $CH_2Cl_2$ decomposition and formation of dechlorinated light hydrocarbons, while reducing PAH and soot formation through hydrodechlorination process. It was also observed that $CH_3Cl,\;CH_4,\;C_2H_6,\;C_2H_4$ and HCl in $CH_2Cl_2/H_2$ reaction system were the major products with some minor products including chloroethylenes. The $CH_2Cl_2$/Ar reaction system gives poor carbon material balance above reaction temperature of $750^{\circ}C$. Chloroethylenes and soot were found to be the major products and small amounts of $CH_3Cl$ and $C_2H_2$ were formed above $750^{\circ}C$ in $CH_2Cl_2$/Ar. The thermal decomposition reactions of chloroform($CHCl_3$) with argon reaction atmosphere in the absence or the presence of $CH_4$ were carried out using the same tubular flow reactor. The slower $CH_3Cl$ decay occurred when $CH_4$ was added to $CH_3Cl$/Ar reaction system. This is because :$CCl_2$ diradicals that had been produced from $CHCl_3$ unimolecular dissociation reacted with $CH_4$. It appears that the added $CH_4$ worked as the :$CCl_2$ scavenger in the $CHCl_3$ decomposition process. The product distributions for $CHCl_3$ pyrolysis under argon bath gas were distinctly different for the two cases: one with $CH_4$ and the other without $CH_4$. The important pyrolytic reaction pathways to describe the important features of reagent decay and intermediate product distributions, based upon thermochemistry and kinetic principles, were proposed in this study.

• Korean Chemical Engineering Research
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• v.49 no.5
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• pp.510-515
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• 2011

The pyrolytic reaction of 1,1-dichloroethylene($CH_2CCl_2$) has been conducted to investigate thermal decomposition of chlorocarbon and product formation pathways under hydrogen reaction environment. The reactions were studied in a isothermal tubular flow reactor at 1 atm total pressure in the temperature range $650{\sim}900^{\circ}C$ with reaction times of 0.3~2.0 sec. A constant feed molar ratio $CH_2CCl_2:H_2$ of 4:96 was maintained through the whole experiments. Complete decay(99%) of the parent reagent, $CH_2CCl_2$ was observed at temperature near $825^{\circ}C$ with 1 sec. reaction time. The important decay of $CH_2CCl_2$ under hydrogen reaction environment resulted from H atom cyclic chain reaction by abstraction and addition displacement. The highest concentration (28%) of $CH_2CHCl$ as the primary product was observed at temperature $700^{\circ}C$, where up to 46% decay of $CH_2CCl_2$ was occurred. The secondary product, $C_2H_4$ as main product was detected at temperature above $775^{\circ}C$. The one less chlorinated ethylene than parent increase with temperature rise subsequently. The HCl and dechlorinated hydrocarbons such as $C_2H_4$, $C_2H_6$, $CH_4$ and $C_2H_2$ were the main products observed at above $825^{\circ}C$. The important decay of $CH_2CCl_2$ resulted from H atom cyclic chain reaction by abstraction and addition displacement. The important pyrolytic reaction pathways to describe the features of reagent decay and intermediate product distributions, based upon thermochemical and kinetic principles, were suggested.

• Applied Chemistry for Engineering
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• v.27 no.6
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• pp.573-576
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• 2016

In this study, hydrogenation of 1,2,3,3,3-pentafluoropropene was performed to produce R-1234yf as an environmentally friendly refrigerant. Palladium based carbon was prepared as a catalyst in the hydrogenation reaction. The effect of reaction conditions including the weight hourly space velocity (WHSV), reaction temperature and ratio of hydrogen and reactants on the catalytic performance was investigated. Under the identical reaction conditions, the effect of WHSV on the main product selectivity was insignificant, but a high reaction temperature was essential for the good product selectivity. A high product selectivity was also obtained when the ratio of hydrogen and reactants kept less than 1.5. Moreover, a correlation model involving the statistical approach to predict product yields was developed.