公开(公告)号：US20130084219A1

公开(公告)日：2013-04-04

申请号：US13685866

申请日：2012-11-27

Applicant: Exxonmobil research and engineering company

Inventor： Robert F. Tammera ,  Edward Nicholas Jones ,  Christopher G. Smalley ,  Phillip A. Deis ,  Alvin U. Chen ,  Christopher S. Gurciullo

IPC: B01J8/20

CPC classification number: B01J8/20 ,  B01J8/388 ,  C10G11/18

Abstract: The present invention is an improved design and operation of a short contact time Fluid Catalytic Cracking (FCC) Reactor wherein the upper internal riser and a lower internal riser are in fluid connection with one another and provide an improved disengaging zone for entraining the vapors from the dilute phase area of the FCC reactor. Detailed preferred embodiments include improvements over the prior art to the internal central riser, riser termination apparatus, cyclone separators, and a coke mitigation baffle system, as well as associated improved fluid catalytic cracking processes utilizing the novel reactor design.

Abstract translation: 本发明是短接触时间流体催化裂化（FCC）反应器的改进的设计和操作，其中上部内部提升管和下部内部提升管彼此流体连接并提供改进的分离区，用于将蒸气从 FCC反应器的稀相面积。 详细的优选实施例包括现有技术对内部中央提升管，提升管终止装置，旋风分离器和焦炭缓解挡板系统的改进，以及利用新型反应器设计的相关联的改进的流化催化裂化方法。

公开(公告)号：US20180169602A1

公开(公告)日：2018-06-21

申请号：US15825174

申请日：2017-11-29

Applicant: ExxonMobil Research and Engineering Company

Inventor： Mohsen N. Harandi ,  Alvin U. Chen ,  Charles R. Bolz ,  Christopher G. Smalley ,  Masaaki Sugita ,  Suriyanarayanan Rajagopalan ,  Bing Du

IPC: B01J8/26 ,  B01J8/18 ,  B01J29/40 ,  C07C2/12

CPC classification number: B01J8/26 ,  B01J8/1863 ,  B01J8/1872 ,  B01J8/30 ,  B01J8/388 ,  B01J29/40 ,  B01J29/90 ,  B01J38/14 ,  C07C2/12 ,  C10G11/182 ,  C10G2300/1092 ,  C10G2300/708 ,  C10G2400/02

Abstract: A method is provided for upgrading a hydrocarbon feed. The method may include contacting a hydrocarbon feed with a catalyst in a fluidized bed reactor; directing a portion of the catalyst from the fluidized bed reactor to a regeneration zone, such that the portion of the catalyst flows in a first direction through the regeneration zone; directing combustion air into the regeneration zone in a counter-flow direction to the first direction, wherein the combustion air is provided at a rate of about 100.05% or less of the stoichiometric air requirement for combusting coke present on the portion of catalyst; regenerating the portion of the catalyst in the regeneration zone to produce regenerated catalyst; and directing a portion of the hydrocarbon feed to combine with the regenerated catalyst downstream of the regeneration zone and lift the regenerated catalyst back to the fluidized bed reactor.

公开(公告)号：US09394488B2

公开(公告)日：2016-07-19

申请号：US13860798

申请日：2013-04-11

Applicant: ExxonMobil Research and Engineering Company

Inventor： Bing Du ,  Alvin U. Chen ,  Christopher G. Smalley ,  Kentaro Kobayashi ,  Masaaki Sugita

IPC: C10G11/18 ,  G05D23/22 ,  G05D23/00 ,  G05D23/30

CPC classification number: C10G11/187 ,  B01J8/085 ,  B01J8/1809 ,  B01J2208/00902 ,  C10G2300/4006

Abstract: A method of improving the uniformity of the contacting of a heavy oil feed with FCC cracking catalyst in the feed zone of an FCC cracking riser in which the heavy oil feed is injected into the catalyst in the riser by means of feed injectors located around the riser, the method comprising minimizing the differences in the temperature profile in the oil/catalyst mixture across the feed zone by varying the oil feed rate to the injectors.

Abstract translation: 一种改进FCC裂化提升管进料区中重油进料与FCC裂化催化剂接触的均匀性的方法，其中重油进料通过位于提升管周围的进料喷射器注入到提升管中的催化剂中 该方法包括通过改变向喷射器的供油速率来最小化在进料区中的油/催化剂混合物中的温度分布的差异。

公开(公告)号：US09358516B2

公开(公告)日：2016-06-07

申请号：US13685866

申请日：2012-11-27

Applicant: ExxonMobil Research and Engineering Company

Inventor： Robert F. Tammera ,  Edward Nicholas Jones ,  Christopher G. Smalley ,  Phillip A. Deis ,  Alvin U. Chen ,  Christopher S. Gurciullo

IPC: B01J8/24 ,  B01J8/30 ,  B01J8/44 ,  B01J8/20 ,  C10G11/18 ,  B01J8/38

CPC classification number: B01J8/20 ,  B01J8/388 ,  C10G11/18

Abstract: The present invention is an improved design and operation of a short contact time Fluid Catalytic Cracking (FCC) Reactor wherein the upper internal riser and a lower internal riser are in fluid connection with one another and provide an improved disengaging zone for entraining the vapors from the dilute phase area of the FCC reactor. Detailed preferred embodiments include improvements over the prior art to the internal central riser, riser termination apparatus, cyclone separators, and a coke mitigation baffle system, as well as associated improved fluid catalytic cracking processes utilizing the novel reactor design.