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A dehydrogenation catalyst regenerator and regeneration method

A technology of dehydrogenation catalyst and regenerator, which is applied in the direction of catalyst regeneration/reactivation, chemical instruments and methods, physical/chemical process catalysts, etc. It can solve the problems of toxicity and cost, and achieve the effect of reducing polycondensation reaction and saving energy consumption

Active Publication Date: 2017-01-25
CHINA UNIV OF PETROLEUM (EAST CHINA)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This is also helpless, because the current dehydrogenation catalysts only have two choices, either Cr-based or Pt-based, the former is poisonous, and the latter is expensive

Method used

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  • A dehydrogenation catalyst regenerator and regeneration method
  • A dehydrogenation catalyst regenerator and regeneration method
  • A dehydrogenation catalyst regenerator and regeneration method

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Experimental program
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Effect test

no. 1 approach

[0095] refer to figure 1 , 2 , a dehydrogenation catalyst regenerator of the present application, comprising a regeneration section and a settling section, and the regeneration section is sequentially from bottom to top a riser lower section 16, an enlarged diameter dense phase section 21 and an upper riser section 27, and the upper riser section 27 is connected with settling section 17.

[0096] In the lower section of the riser of the dehydrogenation catalyst regenerator of the present application, most of the fuels are burned here and the coke on most of the catalysts is burned; in the dense phase section, the gas-solid two-phase heat exchange is mainly performed on the one hand, reducing Small gas-solid two-phase temperature difference transfers more energy to the catalyst, and the catalyst carries more heat to the reactor for use in the reaction. On the other hand, it promotes full contact between the oxygen in the air and the coke on the catalyst, further Burn off the...

no. 2 approach

[0114] Reference attached image 3 , the alkane dehydrogenation to olefins reaction device of the present application, the reaction device is a tank body with variable diameter, and the tank body is divided into a stripping section 22, a reaction section 5 and a catalyst settling section 23 from bottom to top, wherein the catalyst settling The diameter of the section 23 is larger than that of the reaction section 5 , and a heat exchange assembly 24 is arranged in the catalyst settling section 23 .

[0115] In this embodiment, the heat exchange assembly 24 is arranged inside the catalyst settling section 23. In the catalyst settling section 23, the raw material 2 enters the heat exchange assembly 24, and the raw material in the heat exchange assembly 24 exchanges heat with high-temperature oil and gas. Gasification and heating quickly cool down the high-temperature oil and gas, and at the same time, the raw materials use the heat energy of high-temperature oil and gas to gasify ...

no. 3 approach

[0131] This embodiment is a mode in which the alkane dehydrogenation to olefins reaction device of the first embodiment is used in conjunction with the catalyst regenerator of the second embodiment. refer to image 3 .

[0132] The reaction device is connected with the catalyst regenerator through the catalyst standby inclined pipe and the catalyst regeneration inclined pipe. Reference attached image 3 One end of the catalyst waiting inclined tube 13 is connected to the outlet of the waiting catalyst on the reaction device, and the outlet of the waiting catalyst is arranged between the bottom of the gas stripping section 22 of the reaction unit and the gas medium distributor 10, and the inclined tube of the waiting catalyst is The other end of 13 is connected to the spent catalyst inlet of the catalyst regenerator. One end of the catalyst regeneration inclined pipe 12 is connected with the regenerated catalyst outlet of the catalyst regenerator, and the other end is connecte...

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Abstract

A dehydrogenation catalyst regenerator and catalyst catalytic regeneration method, the catalyst regenerator includes a regeneration section and a settling section, and the regeneration section is the lower section of the riser, the dense phase section of the enlarged diameter and the upper section of the riser in sequence from bottom to top , the upper section of the riser is connected with the settling section. In the dehydrogenation catalyst regenerator of the present invention, the preheated air, the catalyst to be generated and the fuel are combusted in the dilute-phase conveying bed at the lower section of the riser; subsequently, the high-temperature flue gas after combustion exchanges heat with the catalyst in a dense phase to ensure that the catalyst is fully burnt, Reduce the temperature difference between the flue gas and the catalyst and improve the utilization rate of energy; the flue gas and catalyst that leave the dense phase section enter the upper section of the riser, so that combustible gases such as CO can be fully burned during the dilute phase transportation process, releasing energy and reducing pollution emissions.

Description

technical field [0001] The invention relates to a regenerator for a dehydrogenation catalyst, in particular to a regenerator and a regeneration method for a catalyst for alkane dehydrogenation. Background technique [0002] Propylene and butene are important basic organic chemical raw materials. Propylene and butane are used as raw materials to produce propylene and butene through dehydrogenation. Theoretically, it belongs to the atomic economic reaction, and the products include high value-added propylene and butene. There is also hydrogen, which is more urgently needed by refineries. [0003] Propane and butane are dehydrogenated to propylene and butene. The reaction has the following three characteristics: the reaction is a strong endothermic reaction, and the reaction heat at 0.1MPa and 25°C is as high as 124.3 and 117.6kJ / mol respectively; Under the condition of reaction temperature, the reaction is limited by the thermodynamic equilibrium, the equilibrium conversion r...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J38/20
Inventor 李春义王国玮
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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