• Title/Summary/Keyword: Hydro-isomerization

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Synthesis of Pure Butene-1 through Hydro-isomerization of Butene-2 and Distillation (2-부텐의 수첨이성화반응 및 증류공정을 통한 고순도 1-부텐의 제조)

  • Cho, Jungho;Jeon, Jong-Ki;Song, Youngha;Lee, Seong Jun;Lee, Jae Ho
    • Korean Chemical Engineering Research
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    • v.45 no.4
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    • pp.351-355
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    • 2007
  • It is necessary to convert butene-2 into butene-1 with higher added-values through positional isomerization. In this study, hydro-isomerization of butene-2 with hydrogen over Pd/alumina catalysts was investigated in a fixed bed reactor. The yield of butene-1 over Ld-265 catalyst was higher than that over other catalysts. The yield of butene-1 was highest (5.3%) under the conditions of reaction temperature of $75^{\circ}C$, reaction pressure of 150 psig, 2-butene flow rate of 48 cc/h and hydrogen flow rate of 3 cc/min. We conducted simulation for the process composed of a hydro-isomerization reactor and a distillation tower. In the case of 78% of tray efficiency, we obtained over 99% pure butene-1 through a distillation tower with 171 steps (R=120).

Reaction characteristics of hydrocarbon fuels under various operation conditions of hydro-upgrading process for vegetable oil-based bio-jet fuel production (식물성 오일 기반 바이오항공유 제조공정에서 수소첨가 업그레이딩을 위한 운전조건에 따른 탄화수소화합물의 특성)

  • Kwak, Yeonsu;Jang, Jung Hee;Kim, Sungtak;Ahn, Minhwei;Lee, Eun-Sil;Han, Gi Bo;Jeong, Byung Hun;Han, Jeong Sik;Jeon, Cheol-Hwan
    • Journal of the Korean Applied Science and Technology
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    • v.35 no.3
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    • pp.731-743
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    • 2018
  • In bio-jet fuel production, selecting operating conditions of hydro-upgrading is of great importance to make iso-Paraffin rich hydrocarbons with carbon distribution including jet fuel range. Herein, iso-Paraffin rich biofuel including jet fuel range hydrocarbons ($C_8-C_{16}$) is produced from simultaneous cracking and isomerization using n-Paraffin rich hydrocarbon derived from hydrotreated vegetable oil over 0.5 wt..% Pt/Zeolite catalyst. We report and analyze the yields and compositions in the produced hydrocarbons affected by various operating conditions, such as reaction temperature, reaction pressure, molar ratio of reactants, and weight hourly space velocity. Aforementioned operating conditions not only can help interpret the reaction dynamics of hydro-upgrading, but also further produce bio jet-fuel after distillation.