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    • 11. 发明公开
    • FIXED BED REACTOR OF LIQUID-ENHANCED IMMERSION TYPE
    • 与液体浸泡加固固定床反应器
    • EP2792405A4
    • 2015-12-30
    • EP12857101
    • 2012-05-25
    • UNIV NANJING
    • ZHOU ZHENGZHANG ZHIBINGYANG GAODONGDAI YUEWU PINGKENGLIU XIAOJUAN
    • B01J8/02
    • B01J8/067B01J8/008B01J8/0214B01J8/0278B01J8/228B01J19/02B01J2208/00176B01J2208/00283B01J2208/00884B01J2208/00902B01J2208/065B01J2219/0286
    • An immersion fixed bed reactor intensified by liquid flow contains a cylindrical tank R-1 internally installed an annular cylindrical catalyst bed (ACCB) T-1 packed with solid catalysts. The inner and outer walls of the T-1 are composed of two layers of stainless steel sheets with holes. The outer layer of stainless steel perforated with holes. The inner layer of catalyst contacting stainless steel is covered with stainless steel waved mesh in circumferential direction. The bottom of T-1 is sealed with a steel plate by welding or a blind plate and the top of T-1 is fixed to R-1 with a flange. The solid catalysts are packed in the ACCB. The cylindrical tank R-1 is equipped with a reaction mass inlet duct 1 at the top and mass outlet duct 2 at the bottom and the duct 2 is connected with a liquid circulating pump P-1, a liquid outlet duct valve V-1, a flow meter L-1, a heat exchanger E-1 and a normal tube inlet M-linserting into the central column space of T-1 at axial position through the top of R-1, and enables the liquid is pumped by P-1 into the central column space of T-1 and radically pass through the catalyst bed of T-1 into the space between R-1 and T-1, thus one cycle of reaction operation is accomplished. With the continuous work of the pump P-1 the liquid in R-1 will be repeatedly circulated and the reaction is simulanously carried out again and again. if it is gas-liquid-solid reaction system, the above-stated normal tube inlet M-1 will be substituted by a jet inlet M-2 which has a vacuum inlet tube allowing the surrounding gas or mass vapor sucked and mixed with the liquid into the central column space of T-2, then radially flows together with liquid reactants through the catalyst bed of T-1 into the annular space between R-2and T-2. The vacuum inlet tube of M-2 is connected to the outlet tube of R-2 and the gas reactant is added through the gas inlet and a gas distributor.
    • 17. 发明公开
    • INTEGRATED SYSTEM TECHNIQUE FOR COUPLING FIXED BED AND JET FLUIDIZED BED TO SEPARATOR UNIT
    • 集成系统及方法硬床的交联和流化床分离器
    • EP2745924A4
    • 2015-06-17
    • EP12807318
    • 2012-05-25
    • UNIV NANJING
    • ZHOU ZHENGZHANG ZHIBINGYANG GAODONGGONG XIONGHUIWU PINGKENG
    • B01J8/00
    • B01D3/009B01J8/005B01J8/02B01J8/08B01J8/20B01J19/18B01J2208/00557B01J2219/00006B01J2219/0004C07C29/04C07C29/48C07C67/08C07C67/297C07C2101/16C07C2601/16Y02P20/582C07C33/025C07C33/14C07C69/14
    • This invention relates to a process of integrated system formed by coupling of fixed bed, jetting floating bed, and separating unit, aimed to provide a new process and equipment of higher efficiency, which integrates multi-type reactors and separation. In this invention, reaction materials will undergo preliminary reaction in fixed bed reactor and intensified reaction in jetting floating bed reactor, and then separation in the subsequent separation system. Unreacted materials will be returned to the raw material intermediate storage tank for mixing with fresh materials, as raw materials for continued reaction. During this process, materials first pass the fixed bed reactor once to achieve certain conversion rate, and then enter the jetting floating bed reactor for intensified reaction. When the product reaches required concentration, the materials will enter subsequent separation equipment for separation. During the whole process, fixed bed reactor, jetting floating bed reactor, and subsequent separation system are coupled, so that the flow path is more integrated, reaction time is greatly shortened, and process energy consumption is further lowered.
    • 本发明涉及通过固定床的耦合,喷射浮床,和分离单元上综合系统,目的在于提供高效率,它集成了多类型的反应器和分离的新工艺和设备的处理。 在本发明中,反应材料将发生固定床反应器预反应并加剧了在随后的分离系统的喷射浮床反应器中,然后分离反应,未反应的材料将被返回到原料中间储罐与新鲜材料混合, 作为用于持续反应的原料。 在此过程中,材料先通过固定床反应器一旦达到一定的转化率,然后进入喷射浮床反应器,用于增强反应。 当产物达到所需的浓度,该材料将进入随后的分离设备进行分离。 在整个过程中,固定床反应器,喷射浮床反应器中,和随后的分离系统被耦合,所以没有流动路径是集成度更高,反应时间大大缩短,而且过程的能量消耗进一步降低。