• Title/Summary/Keyword: 화학반응 메카니즘

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Transfer of Oxygen and Nitrogen between Arc Plasma and Molten Metal during Arc Welding (아아크 용접중 아아크 프라스마와 용융 금속간 산소와 질소의 거동에 관한 연구)

  • Kim, Jeong-Han
    • Journal of the Korean Society of Safety
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    • v.8 no.3
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    • pp.83-90
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    • 1993
  • 직류 아아크 용접시 아아크 프라스마와 용융 금속 사이의 계면에서 일어나는 전기 화학 반응이 용착금속 내의 산소와 질소의 함량에 미치는 영향이 고찰되었다. 열 화학 반응 뿐만 아니라 전기 화학 반응도 용접부의 산소 및 질소의 함량을 결정하는 중요한 반응 메카니즘이라는 것과 전기 화학 반응의 양을 결정하는 것은 단위 면적당 통과하는 전류의 양을 조절하는 용접 전류와 용접 속도라는 것이 실험적으로 입증되었다. 따라서 이 연구 결과는 아아크 용접시 적당한 용접 조건의 선택뿐만 아니라 용접 재료의 설계 또는 선택에 중요한 지침을 준다.

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Reaction Mechanism and Support Effect for the Gas-Phase Oxidation of o-Xylene (자일렌의 기상 산화반응에서의 반응 메카니즘과 담체영향)

  • Lee, Gun-Dae;Lee, Ho-In
    • Applied Chemistry for Engineering
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    • v.2 no.2
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    • pp.155-164
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    • 1991
  • The reaction mechanism and the effects of the oxidation state of vanadium oxide and of support on catalytic activity for the oxidation of o-xylene were investigated. The oxidation of o-xylene simultaneously proceeded through the consecutive and parallel mechanisms. The high valence of vanadium favored selective oxidation to phthalic anhydride, while the low valence caused complete oxidation of phthalic anhydride to CO and $CO_2$. Crystalline $V_2O_5$ showed better selectivity for partial oxidation rather than amorphous one.

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A Study of the Isomerization Reaction Rates of Azobenzene Derivatives (아조벤젠 유도체의 이성질화 반응속도에 관한 연구)

  • Yang, Si Yeong;Kim, Jong Gyu;Heo, Yeong Deok;Choe, Yeong Sang
    • Journal of the Korean Chemical Society
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    • v.38 no.8
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    • pp.552-561
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    • 1994
  • The cis → trans thermal isomerization of azobenzene derivatives has been studied. A sizable solvent effect on the rates for thermal isomerization of push-pull azobenzenes are observed. It is suggested that the isomerization proceeds via a rotational mechanism. For non push-pull azobenzenes, the lack of solvent effects on the rate of isomerization was observed. This suggests that the isomerization proceeds via an inversional mechanism for non push-pull azobenzenes.

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Dehydrohalogenation Reactions Induced by Sodamide Containing Complex Bases (I). Mechanistic Studies on Dehydrohalogenation from trans-1,2-Dihalocyclohexanes (소다아미드를 포함하는 복합염기에 의한 탈할로겐화수소반응 (제1보). 트란스-1,2-디할로시클로헥산의 탈할로겐화수소 반응의 메카니즘 연구)

  • Jong Gun Lee;Kyung-Tae Kang;Euk-Suk Lee
    • Journal of the Korean Chemical Society
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    • v.28 no.1
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    • pp.20-25
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    • 1984
  • Sodamide-containing complex base induced dehydrohalogenations from trans-1,2-dihalocyclohexanes were investigated. Isomerization, deuterium isotope effect along with element effect and others provided strong evidence in favor of E2 reaction mechanism.

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The Kinetic Study of Propylene Sulfide Polymerization Initiated by o-Sulfobenzoic Anhydride (Propylene Sulfide를 o-Sulfobenzoic Anhydride 개시제로 중합시킬 때 반응속도의 연구)

  • Man Jung Han
    • Journal of the Korean Chemical Society
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    • v.22 no.4
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    • pp.268-274
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    • 1978
  • The kinetics of the bulk polymerization of propylene sulfide initiated by o-sulfobenzoic anhydride were investigated, which proceeded by a zwitterionic mechanism.The instantaneous concentrations of monomer and initiator were determined by means of ir-and nmr-spectroscopy. The rate constant of propagation was found to be about three order of magnitude higher than that of initiation and this should be caused by a zwitterion mechanism.

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Development of a Detailed Chemical Kinetic Reaction Mechanism of Surrogate Mixtures for Gasoline Fuel (가솔린 연료를 위한 대용혼합물의 상세한 화학반응 메카니즘 개발)

  • Lee, Ki-Yong
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.33 no.1
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    • pp.46-52
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    • 2009
  • The oxidation of surrogate mixtures for gasoline fuel was studied numerically in perfectly stirred reactor(PSR) to develope the needed detailed reaction mechanism. The reaction mechanism was assembled with the mechanisms for the oxidation of iso-octane or kerosene. It was shown that the reaction model predicted reasonably well the concentration profiles of fuel and major species reported in the literature. As the addition of kerosene into iso-octane as fuel was increased, the concentrations of $C_2H_2$ and benzene became high. Especially benzene known as a carcinogen appeared at a very high concentration in the flue gases.

Determination of Reactivities by Molecular Orbital Theory (Ⅹ). $S_N2$ Retention Mechanism at a Carbonyl Carbon (화학반응성의 분자궤도론적 연구 (제10보). 카르보닐 탄소에서의 $S_N2-$보존형 메카니즘)

  • Ikchoon Lee
    • Journal of the Korean Chemical Society
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    • v.21 no.1
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    • pp.16-22
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    • 1977
  • Bimolecular substitution of $Cl^-$ at carbonyl carbon of $CH_3COCl$ has been investigated MO theoretically by calculating energy profiles (EHT) and electronic distribution (CNDO/2) for frontside and backside attacks at several distances of approach. Considerations of other experimental and MO data together with these calculations support the $S_N2-$retention mechanism for the substitution at carbonyl carbon.

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Pressure Effects on the Aquation of $cis-[Co(en)(NH_3)_2Cl_2]Cl$ in Acetone-Water Mixtures (아세톤-물 혼합용매에서 $cis-[Co(en)(NH_3)_2Cl_2]Cl$의 수화반응에 미치는 압력의 영향)

  • Jong-Jae Chung;Byung-Hwan Lee
    • Journal of the Korean Chemical Society
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    • v.29 no.5
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    • pp.472-477
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    • 1985
  • The rates for the aquation of $cis-[Co(en)(NH_3)_2Cl_2]Cl in acetone-water mixtures have been measured at various pressures and temperatures by the electric conductivity method. The rate constant measured at 25$^{\circ}$C in pure water solvent is 3.47 ${\times}10^{-4}$/sec. Rate constants are increased with increasing temperature, and decreased with increasing pressure and mole fraction of acetone. Activation volumes and other activation parameters are calculated from these rate constants. The activation volumes are all positive and lie in the limited range +2.82~+$8.2cm^3$/mole. The rate constants in aqueous acetone solution are analyzed with the solvent compositions. Plots of log $k_{obs}$ vs. Grunwald-Winstein Y values show that log $k_{obs}$ varies linearly and the gradients are about 0.25. The applications of a free energy cycle relating the process initial state ${\to}$ transition state in water to that in acetone-water mixture show that the changes in solvation of the transition state have a dominant effect on the rate. From these results the aquation of this complex would be discussed in terms of dissociative mechanism ($I_d$).

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Rates and Mechanism of Decomposition of Hydrogen Peroxide by Copper(Ⅱ)-Amines Complexes (구리(Ⅱ)-아민류착물에 의한 과산화수소의 분해반응속도와 메카니즘)

  • Sun-Deuk Kim;Yun-Yeol Shin;Jeong-Eun Park;Chang-Su Kim
    • Journal of the Korean Chemical Society
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    • v.37 no.2
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    • pp.199-205
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    • 1993
  • The decomposition of hydrogen peroxide by copper-amines complexes was studied in the pH range of 7.3∼11.3 by measuring the rate of the decreasing concentration of $H_2O_2$. Decomposition rate of hydrogen peroxide increased with increasing pH, and then decreased with increasing pH successively. The mechanism for this type of reaction involves the formation of peroxo complexes in the rate-determining step preceding deprotonation of hydrogen peroxide and copper-amines complexes.

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Reaction Conditions and Mechanism of Electrolytic Reduction of Nitrobenzene (니트로벤젠의 전해환원 반응 조건과 메카니즘)

  • Chon Jung Kyoon;Paik Woon Kie
    • Journal of the Korean Chemical Society
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    • v.21 no.6
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    • pp.404-412
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    • 1977
  • Electrochemical reduction of nitrobenzene (${\phi}NO_2$) and its derivatives on Pb electrode was studied by means of galvanostatic measurements and coulometric electrolysis in ethanol-water solvent. In acidic solutions phenylhydroxyl amine and aniline ethanol-water solvent. In acidic solutions phenylhydroxyl amine and aniline were produced while nitrosobenzene and coupled products such as azo-and hydrazobenzene were produced in basic solutions. Nitrosobenzene (${\phi}NO$) was not found to be an intermediate in the reduction reactions of ${\phi}NO_2$ in acidic solutions. No direct coupling between ${\phi}NO\;and\;{\phi}NHOH$ was observed to occur in the electrolyte solutions used. Mechanisms of the production of phenylhydroxylamine and nitrosobenzene are deduced from Tafel slope, pH dependence and reaction order with respect to nitrobenzene. Mechanism for the reduction of substituted nitrobenzenes seems to be identical to that of nitrobenzene.

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