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    • 4. 发明申请
    • FCC process for the maximization of medium distillates
    • FCC工艺可以使中等馏出物达到最大化
    • US20070095724A1
    • 2007-05-03
    • US11545443
    • 2006-10-11
    • Claudia Maria de Lacerda Alvarenga BaptistaWilliam Richard Gilbert
    • Claudia Maria de Lacerda Alvarenga BaptistaWilliam Richard Gilbert
    • C10G11/00
    • C10G11/18
    • A FCC process for the maximization of medium distillates from feedstocks of different sources, by the contact of the feedstock which circulates in a riser reactor together with a fine particulate catalyst from a regenerator (6), under FCC conditions of maximum LCO, at temperatures between about 480° C. and about 520° C., in the absence of added hydrogen, and with injection of coolant or quench to a riser ascendant R, and where the process consists of the injection of a coolant proportion between about 200 and about 50 kg/m3 of feedstock, preferably between about 100 and about 50 kg/m3 of feedstock, in a zone (3) of the riser ascendant R in a position located between about 25% and about 50% of the height of said riser R above the feedstock inlet mouths (2), the injection in this position resulting in the increase of the catalyst circulation and the temperature increase in the starting segment of the riser, yielding the production of medium distillates with low aromatic compounds content and bottoms conversion lower than when the coolant injection is employed in the base of the riser R as it is handled in the prior art processes.
    • FCC方法,通过在最高LCO的FCC条件下,通过在提升管反应器中循环的原料与来自再生器(6)的细颗粒催化剂的原料的接触在不同来源的原料中最大化中间馏分, 约480℃和约520℃,在没有加入氢气的情况下,并且注入冷却剂或骤冷至提升管上升R,并且其中该方法包括注入冷却剂比例为约200至约50 kg / m 3的原料,优选在约100至约50kg / m 3原料之间,在提升器上升R的区域(3)中位于 在原料入口(2)上方的所述提升管R的高度的约25%至约50%之间,在该位置的注入导致催化剂循环的增加和提升管的起始段中的温度升高,产生 中间馏分的生产 低芳族化合物含量和底部转化率比在现有技术方法处理时在提升管R的基底中使用冷却剂注入时低。
    • 5. 发明申请
    • FCC PROCESS FOR MAXIMIZING DIESEL
    • 用于最大化柴油的FCC方法
    • US20140034551A1
    • 2014-02-06
    • US14111145
    • 2011-04-15
    • Emanuel Freire SandesLeandro Morais SilvaWilliam Richard GilbertJose Geraldo Furtado Ramos
    • Emanuel Freire SandesLeandro Morais SilvaWilliam Richard GilbertJose Geraldo Furtado Ramos
    • C10G11/18
    • C10G11/18C10G51/06C10G2300/1048C10G2300/4056C10G2400/02C10G2400/04
    • A process is described for maximizing the FCC middle distillates comprising the use of two different converters, operating in a coordinated manner that seeks to maximize the production of LCO for diesel, generating a specified gasoline and reducing fuel oil production. Converter “A” operates with a low contact time in the riser, of 0.2 to 1.5 sec. (preferably from 0.5 to 1.0 sec.) making a higher reaction temperature possible even at low severity, from 510° C. to 560° C. (preferably from 530° C. to 550° C.) and with a catalyst suitable to the maximization of LCO. Converter “B” possesses a high activity catalytic system, suited to cracking naphtha and DO generated in the first converter. Preferably, converter “B” has two separate risers, allowing the reaction temperatures of each to be adjusted independently according to the range most recommended for maximizing the cracking of each of the streams: 530° C. to 560° C. for the DO riser and 540° C. to 600° C. for the naphtha riser. The high-quality LCO stream generated by cracking at low severity in converter “A” is not contaminated by the poorer quality LCO generated by re-cracking the DO in converter “B,” since each converter has its own fractionating tower. The use of low contact time as a route for reducing severity in converter “A” geared towards the production of better quality LCO allows it to operate with a higher reaction temperature for the same LCO conversion and quality level, entailing greater operating reliability for the unit, and providing benefits for the heat balance of the converter. In existing units, the improvement in the heat balance provides leeway to the air blower via increased batch temperature, and makes room for processing more residual batches.
    • 描述了一种最大化FCC中间馏分的方法,其包括使用两种不同的转化器,以协调的方式运行,其寻求最大化柴油的LCO生产,产生特定的汽油和减少燃料油的生产。 转换器“A”在提升管中的接触时间低,为0.2至1.5秒。 (优选为0.5至1.0秒),甚至在较低的苛刻度下也可以使用更高的反应温度,从510℃至560℃(优选530℃至550℃)和适合于 LCO最大化。 转化器“B”具有高活性催化系统,适用于在第一转化器中产生的石脑油和DO。 优选地,转化器“B”具有两个单独的提升管,允许每个反应温度根据最适合使每个流的最大化的范围独立地调节:对于DO提升管为530℃至560℃ 对于石脑油提升管为540℃至600℃。 由于每个转换器都有自己的分馏塔,所以在转换器“A”中以低严重程度开裂产生的高质量LCO流不会被转换器“B”中的DO重新开裂所产生的较差的质量LCO所污染。 使用低接触时间作为降低转换器“A”的严重性的路线,用于生产更好质量的LCO,使其能够在相同的LCO转换和质量水平下以更高的反应温度运行,从而为该单元提供更高的运行可靠性 ,并为转换器的热平衡提供益处。 在现有单元中,热平衡的改善通过增加批量温度为鼓风机提供了余地,并且为处理更多的剩余批次提供了空间。