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    • 3. 发明申请
    • Extractive Distillation Process For Benzene Recovery
    • 萃取蒸馏工艺用于苯回收
    • US20130228447A1
    • 2013-09-05
    • US13410286
    • 2012-03-01
    • Kuang-Yeu WuTzong-Bin LinFu-Ming LeeTsung-Min ChiuJeng-Cheng Lee
    • Kuang-Yeu WuTzong-Bin LinFu-Ming LeeTsung-Min ChiuJeng-Cheng Lee
    • B01D3/40
    • B01D3/40C07C7/08C07C15/04
    • Recovering high purity benzene from hydrocarbon feedstock containing aromatics and non-aromatics is implemented by simple and low-cost modifications to conventional extractive distillation columns (EDCs). Methyl cyclohexane (MCH) that is generated through non-selective hydrogenation of toluene in hydrodesulfurization (HDS) units is a major contaminant in benzene production. To meet MCH specifications, often times the extractive distillation (ED) process for recovering purified benzene is operated with excessive benzene loss to the overhead raffinate stream, producing a lower quality non-aromatic product. Novel techniques (1) remove operational constrictions of the HDS unit on MCH production, thus lengthening the catalyst life and (2) allow the EDC to drive essentially any amount of MCH away from the bottom benzene product without concerns with benzene loss to the overhead raffinate stream and (3) recover benzene from the overhead raffinate stream to upgrade the quality of non-aromatic product and increase the benzene product recovery.
    • 通过对常规萃取蒸馏塔(EDC)的简单且低成本的改进来实现从芳族化合物和非芳族化合物的烃原料中回收高纯度苯。 通过在加氢脱硫(HDS)单位中甲苯的非选择性氢化产生的甲基环己烷(MCH)是苯生产中的主要污染物。 为了满足MCH规范,通常多次用于回收纯化苯的萃取蒸馏(ED)方法对顶部萃余液流具有过量的苯损失,产生较低质量的非芳族产物。 新技术(1)消除了HDS单元在MCH生产中的操作限制,从而延长了催化剂寿命,(2)允许EDC将基本上任意数量的MCH从底部苯产品中驱出,而不考虑苯损失到塔顶残液 流和(3)从塔顶残液流回收苯,提高非芳香族产品的质量,提高苯产品回收率。
    • 10. 发明授权
    • Oxidative desulfurization and denitrogenation of petroleum oils
    • 石油的氧化脱硫脱氮
    • US07666297B2
    • 2010-02-23
    • US11643078
    • 2006-12-21
    • Fu-Ming LeeTzong-Bin LinHsun-Yi HuangJyh-Haur HwangHung-Chung ShenKarl Tze-Tang Chuang
    • Fu-Ming LeeTzong-Bin LinHsun-Yi HuangJyh-Haur HwangHung-Chung ShenKarl Tze-Tang Chuang
    • C10G45/00C10G17/00
    • C10G27/12
    • An improved oxidative process that employ a robust, non-aqueous, and oil-soluble organic peroxide oxidant for effective desulfurization and denitrogenation of hydrocarbons including petroleum fuels, hydrotreated vacuum gas oil (VGO), non-hydrotreated VGO, petroleum crude oil, synthetic crude oil from oil sand, and residual oil. Even at low concentrations and without the assistance of catalysts, the non-aqueous organic peroxide oxidant is extremely active and fast in oxidizing the sulfur and nitrogen compounds in the hydrocarbon feedstocks. Furthermore, the process generates a valuable organic acid by-product that is also used internally as the extractive solvent for effective removal of the oxidized sulfur and nitrogen from the hydrocarbons without the need of a final adsorption step. Novel process steps are also disclosed to substantially prevent yield loss in the oxidative process.
    • 一种改进的氧化方法,其采用坚固的非水和油溶性有机过氧化物氧化剂,用于有效脱硫和脱氮烃类,包括石油燃料,加氢处理的减压瓦斯油(VGO),非加氢处理的VGO,石油原油,合成原油 油砂油和残油。 即使在低浓度且没有催化剂的帮助下,非水有机过氧化物氧化剂在氧化烃原料中的硫和氮化合物方面是非常活跃和快速的。 此外,该方法产生有价值的有机酸副产物,其也在内部用作萃取溶剂,以有效地从烃中除去氧化的硫和氮,而不需要最终的吸附步骤。 还公开了新的方法步骤以基本上防止氧化过程中的产量损失。