• Title/Summary/Keyword: Al-MCM-48

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Catalytic decomposition of HDPE over Al-MCM-48 using TGA and Py-GC/FID (TGA와 Py-GC/FID를 이용한 Al-MCM-48상에서 HDPE의 촉매(觸媒) 열분해(熱分解))

  • Kim, Young-Min;Kim, Seung-Do;Park, Young-Kwon;Kim, Ji-Man;Jeon, Jong-Ki
    • Resources Recycling
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    • v.15 no.5 s.73
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    • pp.17-25
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    • 2006
  • Al-MCM-48 was used as a catalyst to decompose high density polyethylene(HDPE). Catalytic activity of Al-MCM-48 was compared with those of Al-MCM-41, Beta, and ZSM-5. Catalytic decomposition rate over Al-MCM-48 was much higher than at of non-catalytic pyrolysis only. Compared to other catalysts, Al-MCM-48 revealed the little higher activation energy value. The progressive deactivation behavior of the catalysts has also studied. ZSM-5 and Al-MCM-48 showed slower deactivation rates than Al-MCM-41 and Beta. Pyrolysis coupled with gas chromatographic separation and flame ionization detection (Py-GC/ FID) was also performed to assess the characteristics of pyrolysis products. ZSM-5 gave a higher fraction of gaseous products ($C_1-C_4$). Al-MCM-41 and Beta produced mainly $C_5-C_{12}$ products. The selectivity to oil product ($C_5-C_{22}$) obtained with Al- MCM-48 is higher an that with the other catalysts employed in this study.

Synthesis and Spectroscopic Characterization of Vanadium-Incorporated V-AlMCM-48 Mesoporous Material (바나듐이 들어있는 Mesoporous V-AlMCM-48 분자체의 합성 및 분광학적 특성 조사)

  • Back, Gernho;Yu, Jong-Sung;Park, Sung-Kun;Lee, Chul Wee;Won, Taejin
    • Korean Chemical Engineering Research
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    • v.44 no.4
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    • pp.369-374
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    • 2006
  • A solid-state reaction of $V_2O_5$ with AlMCM-48 followed by calcination generated very weak paramagnetic $VO^{2+}$ species in the mesoporous material. Dehydration and subsequent reduction with CO result in the formation of vanadyl $VO^{2+}$ species that can be characterized by EPR. The chemical environment of vanadium centers in $VO^{2+}-AlMCM-48$ was investigated by XRD, EDX, DR-UV-Vis, EPR,$^{29}Si$ and $^{27}Al$ and $^{51}V$ NMR. Vanadium species in MCM-48 are existed as pseudotetrahedral $VO^{2+}$ state when they were dehydrated or reduced with CO. The coordination of water on vanadyl ions transformed their structure to distorted octahedral.

Diels-Alder Cycloaddition of Cyclopentadiene with Ethylacrylate Catalyzed by Mesoporous Al-MCM-48 and Al-MCM-41 Catalysts

  • Shon, Jeong-Kuk;Sim, Jae-Yi;Thakur, Santosh Singh;Ko, Eun-Mi;Kong, Soo-Sung;Choi, Ji-Yun;Kang, Min;Senapati, Bidyut Kumar;Choi, Doo-Seoung;Ryu, Do-Hyun;Kim, Ji-Man
    • Bulletin of the Korean Chemical Society
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    • v.29 no.10
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    • pp.1993-1997
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    • 2008
  • In the present work, Diels-Alder reaction of cyclopentadiene with ethylacrylate has been carried out by using two types of mesoporous solid acid catalysts (Al-MCM-41, Al-MCM-48) with different pore structures. The specific topology of Al-MCM-48 (cubic Ia3d structure composed of two independent 3-D channel systems) exhibit higher activity and stereo-control than those of Al-MCM-41 (hexagonal packing of 1-D channels). The physical properties of Al-MCM-48 catalyst, such as high accessibility of reactants to the acid sites, spatial confinement in the nanoscopic reactors, and 3-D channel network structure that are effective adsorption and diffusion of reactants, play a crucial role in the present study.

Catalytic Upgrading of Geodae-Uksae 1 over Mesoporous MCM-48 Catalysts

  • Jeon, Ki-Joon;Jin, Sung Ho;Park, Sung Hoon;Jeon, Jong-Ki;Jung, Sang-Chul;Ryu, Changkook;Park, Young-Kwon
    • Bulletin of the Korean Chemical Society
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    • v.35 no.7
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    • pp.1951-1955
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    • 2014
  • Catalytic pyrolysis of Geodae-Uksae 1, a kind of miscanthus found in Korea, was carried out over mesoporous MCM-48 catalysts. For rapid product analysis and catalyst evaluation, pyrolysis-gas chromatography/mass spectrometry was used. X-ray diffraction, nitrogen sorption, pyridine adsorbed Fourier transform infrared, and NH3 temperature programmed desorption were utilized to analyze the properties of the catalysts. Compared to non-catalytic reaction, catalytic upgrading over mesoporous Al-MCM-48 catalysts produced a higher-quality bio-oil with a high stability and low oxygen content. Al-MCM-48 exhibited higher deoxygenation ability than Si-MCM-48 due to its higher acidity.

Catalytic performance of Al-MCM-48 molecular sieves in the isopropylation of phenol with isopropyl acetate (isopropyl acetate을 이용한 페놀의 isopropylation 반응의 Al-MCM-48 분자체 촉매반응 특성)

  • Venkatachalam, Kandan;Hemalatha, Pushparaj;Peng, Mei-Mei;Jang, Hyun-Tae
    • Proceedings of the KAIS Fall Conference
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    • 2011.05a
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    • pp.144-146
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    • 2011
  • Al-MCM-48 molecular sieves (Si/Al = 25, 50, 75 and 100) were synthesized hydrothermally using cetyltrimethyl ammonium bromide as the structure directing template. The orderly arrangement of mesopores was evident from the low angle X-ray diffraction patterns and TEM images. The catalytic performance was evaluated in the vapour phase isopropylation of phenol with isopropyl acetate. Phenol conversion decreased with increase in the Si/Al ratio of the catalysts. The major reaction product was 4-isopropyl phenol (selectivity: 78%). Delocalization of phenolic oxygen electron pair over the aromatic ring promoted para-selective alkylation. Such delocalization could be aided by the hydrophilic surface of the molecular sieves. Though ester was used as the alkylating agent, phenyl isopropyl ether was not formed

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Computer aided simulation of spark plasma sintering process (Part 2 : analysis) (스파크 플라스마 소결공정의 전산모사(2부 : 해석))

  • Keum Y.T.;Jung S.C.;Jean J.H.
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.16 no.1
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    • pp.43-48
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    • 2006
  • In this Part 2, the grain growth processes of $Al_2O_3$ ceramics is numerically simulated using Monte Carlo method (MCM) and finite element method (FEM) and the pore sizes are analyzed. As the green ceramics whose thermal conductivities in high temperatures are generally low are sintered by the plasma heat and are rapidly cooled, the grain growth of the sintered body in the center is different from that in the outer. Also, even in the same sintering temperature, the pore size differs according to the pressing pressure. In order to prove the difference, the temperature distribution of the sintered body was analyzed using the finite element method and then the grain growth process associated with pressing pressures and relative densities was simulated using Monte Carlo method.