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A method for converting carbon tetraolefins to propylene by catalytic cracking or cracking process

A technology of catalytic cracking and carbon tetraolefins, applied in chemical instruments and methods, hydrocarbon production from oxygen-containing organic compounds, organic chemistry, etc., can solve the problems of large solvent ratio, large reflux ratio, and low butene yield, and achieve Improve selectivity and yield, increase device capacity, and fully utilize resources

Inactive Publication Date: 2016-08-24
CHINA UNIV OF PETROLEUM (EAST CHINA)
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

When the method of ordinary rectification is used to process C4, since the boiling points of the components of butene and butane in C4 are similar, the separation of ordinary rectification methods has a large reflux ratio, a large number of trays, high energy consumption, and poor operation. The problem of high investment costs
When extractive distillation technology is used, there are problems such as low yield of butene; complicated process and difficult operation; extraction agent is mixed in the separated product butene; large solvent ratio and large amount of extraction agent are used.

Method used

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  • A method for converting carbon tetraolefins to propylene by catalytic cracking or cracking process
  • A method for converting carbon tetraolefins to propylene by catalytic cracking or cracking process

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Embodiment 1

[0041] The fixed-bed catalytic reactor ( figure 1 Middle module 4), heated to 120°C. Water (stream 12) and the mixture containing butane and butene-1 (stream 11) according to water / ene molar ratio 1:1, mass space velocity is 3h -1 , into the hydration reactor ( figure 1 Middle module 4), contact with the hydration reaction catalyst to carry out the hydration reaction, the temperature is 120° C., the outlet of the hydration reactor obtains the mixture of hydrated sec-butanol and butane (stream 13). The liquid product obtained at the outlet of the hydration reactor is subjected to rectification separation (module 5), unreacted butane (stream 14) is obtained at the top of the tower, and sec-butanol (stream 15) is obtained at the bottom of the tower. This stream (stream 15) is introduced into a riser catalytic cracking reaction device (module 1) containing H-ZSM-5 molecular sieve catalyst, and at a reaction temperature of 540° C., a cracking reaction occurs simultaneously with t...

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Abstract

The invention discloses a method for converting carbon-4 olefin into propylene through a catalytic cracking or pyrolysis process. The technical method comprises the following steps: (1) directly putting the etherified carbon-4 into a reactor, and performing hydration reaction with water to generate a corresponding alcohol; (2) performing regular distillation on the reactor outlet material to obtain the alkane on the tower top and the corresponding alcohol on the tower bottom; and (3) taking the tower bottom material as the raw material for cracking and increasing the propylene, and reentering to a catalytic cracking riser reactor to perform cleavage reaction. A mass separating agent (water) which does not influence the consequent reaction without separation is added, the alkane and the olefin separation process is reinforced, the olefin component with high reactivity is high selectively reprocessed under the condition without separating the mass separating agent. The problem of efficient separation of the alkane and the olefin in the traditional process is solved and the target of increasing the yield of the propylene is realized through reprocessing. The original device is utilized and the utilization rate of the olefin is increased under the condition of low investment.

Description

technical field [0001] The present invention relates to a method for converting carbon tetraolefins into propylene by catalytic cracking or cracking process. It belongs to the field of deep processing of liquefied gas and efficient utilization of petroleum resources, and is especially suitable for producing propylene by using mixed C4 by-product of catalytic cracking unit. Background technique [0002] Propylene is an important petrochemical raw material. With the continuous development of new varieties of downstream derivatives of propylene, the demand for propylene has been strong in recent years. At present, 54% of propylene in my country comes from steam cracking of naphtha, and 42% of propylene is a by-product of catalytic cracking unit. Compared with the world, my country's FCC by-product propylene occupies an important position. There are many catalytic cracking units in China, and the adaptability of raw materials is strong. The potential of catalytic cracking proc...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C07C1/20C07C7/152C07C9/10C07C11/06C07C11/04
CPCY02P20/52Y02P30/20Y02P30/40
Inventor 赵辉杨朝合马安田亮山红红朱亮
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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