• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    1391836 Reforming naphtha UNIVERSAL OIL PRODUCTS CO 9 May 1972 [10 May 1971] 21509/72 Heading C5E [Also in Division B1] In a catalytic reactor Fig. 1, e.g. for catalytic reforming, catalyst flows continuously or intermittently through annular catalytic beds at sections 2, 3 and 4 via interconnecting small diameter pipes 13, 21 and 38 and leaves via uniformly placed withdrawal conduits 49 while reactant enters at 6, passes transversely through each bed from the annular manifold surrounding each bed, passing through external heat exchangers 26 and 37 between passage through adjacent beds, the covers 20, 33 and 48 of the annular beds being removable. Transfer of catalyst is made out of a bed under core 23 as shown in Fig. 3. The annular catalyst zones are defined by flat faced wedge shaped wires or bars 14<SP>1</SP>, 15<SP>1</SP> as shown in Fig. 4 to prevent attrition of catalyst. The catalytic reforming of a gasoline fraction using spherical catalyst is exemplified where catalyst with hydrogen lift gas are introduced at 7, and a mixture of gasoline and hydrogen is introduced at 6. The apparatus is said to be particularly suitable for reforming naptha fractions using a catalyst of a platinum group metal combined with alumina spheres.
    公开号:SU717998A3
    申请号:SU721784126
    申请日:1972-05-08
    公开日:1980-02-25
    发明作者:Раймонд Гринвуд Артур;Вильям Гейнц Вальтер;Шнитта Эдвард;Мильтон Бойд Дэвид
    申请人:Юниверсал Ойл Продактс Компони (Фирма);
    IPC主号:
    专利说明:

    The invention relates to apparatus with a moving catalyst bed, in particular to multisection reactors, and can be used in the petroleum chemical industry to bring processes in the gas phase, for example, reforming hydrocarbon feedstocks. Various types of moving catalyst bed reactors are known in the technique, containing several sections with catalyst overload from one section to the other one. Of these apparatuses, the ractor containing the catalyst section equipped with the catalyst unloading device D1 .1 is closest to the invention. This consists of discharge pipes whose upper ends are located geometrically uniformly in the bottom of the t2J section. Such a device for unloading provides hermetic unloading of the catalyst, preventing leakage of the reaction gases, since discharge tubes can be made of small diameter. In view of this, it is advisable to use a known discharge device in multisectional reactors with a moving catalyst bed to transfer the catalyst from section to section under the action of gravitational forces. In this case, as is known, it is necessary to maintain a certain degree of uniform movement of the solid phase over the cross section of the layer in the direction from top to bottom. However, the possibility of uneven overload of the catalyst from individual points along the section of the section may lead to unevenness of its residence time, overheating and coking. . The purpose of the invention is to improve the catalyst overload uniformity. This is achieved by the fact that the discharge pipes of the catalyst overload devices are provided with nozzles placed at one common level under the lid of each downstream section. The catalyst sections are made annular with a radial course of gas, under the lid of which a hydraulic lock is made. Figure 1 shows the proposed reactor, a General view; in fig. 2 shows the section A-A in FIG. The reactor consists of housing 1, annular sections 2 with lids 3 and side walls 4 and 5. Catalyst 6 is located in the sections. equal
    bottom 8 of the upstream catalyst section. The transshipment pipes are equipped with nozzles 9, which are Taimy-on-One and the same level under the lid of the lower section, in the upper part of which a hydraulic lock is made.
    The reactor operates as follows.
    A catalyst, such as a spherical reforming catalyst, is introduced into the nozzle 10 and fed through the regeneration section 11 by means of reloading tubes 7 into the upper catalytic ring section 2. The catalyst moves from the top downwards through the reactor under the action of gravitational forces. Filling catalyst section 2 for each of the reloading
    the pipes continue until the Catalyst Level reaches the lower end of the nozzle 9. Since the nozzles 9 are at the same level, the level of the &amp; teLeizer is automatically kept constant. In addition, the geometric uniformity of the location of the nozzles ensures uniform distribution of the catalyst over the cross section. sections. This process of reloading is repeated between sections: and until the catalyst is discharged through the nozzles -12.
    A mixture of gases, for example, a mixture of a direct race fraction with hydrogen, is introduced into the apparatus through nozzle 13. The direction of movement of the gas mixture through
    xSeduced ring catalyst section. 2 in this case. Defined, constructively from the outside to the inside of the section. GAS PREVENTION is prevented by discharging the hydraulic seal in the upper part of the section, including the connections 9 and the side walls 4 and. 5 sections. The mixture of gases passes successively to the catalyst sections 2, and if the process requires intermediate heating of gases (for example, in catalytic reforming), then the mixture can be heated in intermediate heaters 14. The gases are removed through the pipe 15.
    权利要求:
    Claims (2)
    [1]
    1. Reactor with a moving catalyst bed, consisting of several sections located one under the other with a catalyst, between which there are devices for handling the catalyst from a section into a section consisting of discharge pipes, the upper ends of which are located geometrically evenly in the bottom of each section located It is equivalent to the fact that, for the purpose of uniformity and overloading of the Catalyst, the discharge pipes of the devices for the catalyst overload are provided with nozzles placed
    at one general level under the lid of each downstream section.
    [2]
    2. The reactor according to claim 1, of t l ich a and u With the fact that the catalyst sections are made of rings with a radial course of gas, under the lid of which the hydraulic lock is made.
    Sources of information taken during examination
    1. US patent 2475855, cl. 23-288, 1962.
    2. Fluid bed processes. Edited by D.F. Otmera, 1958, p. 154-155, rice, 16 (prototype).
    类似技术:
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    US2499304A|1950-02-28|Method and apparatus for hydrocarbon conversion
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    US2766186A|1956-10-09|Conversion of fluid hydrocarbon in the presence of a moving mass of granular catalyst
    US3048468A|1962-08-07|Method for effecting catalyzed reactions
    GB2065492A|1981-07-01|Fluid distributor for fixed-bed catalytic reaction zones
    US2910431A|1959-10-27|Hydroforming and apparatus therefor
    同族专利:
    公开号 | 公开日
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    ES402548A1|1975-04-01|
    YU35061B|1980-09-25|
    PL82748B1|1975-10-31|
    YU121872A|1980-03-15|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US14151471A| true| 1971-05-10|1971-05-10|
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