Moving bed methanol aromatization method for coproducing liquefied gas

A liquefied gas and aromatization technology, which is applied in chemical instruments and methods, preparation of liquid hydrocarbon mixtures, gas fuels, etc., can solve the problem that the thermal balance of the reaction regeneration system is difficult to maintain, the efficiency of the gas-solid separation system is affected, and the yield of the target product is reduced. and other problems, to avoid thermal decomposition, overcome the large degree of back mixing, and improve the production capacity

Active Publication Date: 2015-08-05
CHINA KUNLUN CONTRACTING & ENG
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  • Abstract
  • Description
  • Claims
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AI Technical Summary

Problems solved by technology

[0007] (1) The degree of back-mixing of the catalyst in the fluidized bed is relatively heavy, and excessive local reaction can easily lead to coking; (2) The turbulence in the fluidized bed is severe, the wear is serious, and the expensive catalyst is easily damaged and then runs out, resulting in economical problems. (3) The residence time distribution in the fluidized bed is wide, which easily leads to a wide distribution of products and a decrease in the yield of the target product; (4) Temperature and pressure fluctuations will affect the efficiency of the gas-solid separation system, thereby affecting the subsequent Fractional distillation system; (5) For the reaction system with low coke formation rate, it is difficult to maintain the heat balance of the reaction regeneration system of the fluidized bed

Method used

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  • Moving bed methanol aromatization method for coproducing liquefied gas
  • Moving bed methanol aromatization method for coproducing liquefied gas
  • Moving bed methanol aromatization method for coproducing liquefied gas

Examples

Experimental program
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Effect test

Embodiment 1

[0044] Example one (see figure 1 ): Containing the first and second reactors, and the separation step adopts a depentane tower and a deliquefied gas tower for fractional distillation.

[0045] The fresh methanol feed is pumped outside the boundary area, and the pressure is increased to 1.76 MPaG and the temperature is 25°C. The fresh methanol feed 1 first enters the second reactor (equivalent to the end reactor) after heat exchange with the reaction product to increase the temperature, and then processes the pre-passivated catalyst from the first reactor (equivalent to the first end reactor). Contact reaction to moving bed, liquid hourly space velocity is 5.0h -1 , The intermediate product (ie the reaction product of the second reactor) is produced, the pressure is 1.74 or 1.75MPaG, the temperature is 350°C, or 320°C. After leaving the second reactor, the product enters the first reactor and reacts with the highly active catalyst from the regenerator in a radial moving bed contac...

Embodiment 2

[0051] Example two (see figure 2 ): Containing the first and second reactors, the separation step adopts the depentanizer and the deliquefied gas tower for fractional distillation, the circulating gas 3 is firstly subjected to ammonia cold heat exchange and pump boost before entering the deliquefied gas tower, and the methanol raw material is separated The 2 strands enter the two reactors respectively.

[0052] Fresh methanol feed 1 is pumped outside the boundary area, the pressure is increased to 0.3 MPaG, the temperature is 25 ℃, the fresh methanol feed 1 is heated by heat exchange with the reaction product, and then divided into 2 shares: raw material 1 and raw material 2, respectively as the first The reactor (equivalent to the first end reactor) and the second reactor (equivalent to the end reactor) are fed with a flow ratio of 1:9. Raw material 2 enters the second reactor, and carries out a radial moving bed contact reaction with the pre-passivated catalyst from the first ...

Embodiment 3

[0058] Example three (see image 3 ): Including the first, second, and third reactors, the separation step adopts the depentanizer and the deliquefied gas tower for fractional distillation, the recycle gas 3 is pressurized by the dry gas compressor before entering the deliquefied gas tower, and the methanol raw material Divided into 3 strands respectively into the three reactors.

[0059] The fresh methanol feed is pumped outside the boundary area, and the pressure is increased to 0.6 MPaG and the temperature is 25°C. The fresh methanol feed 1 is divided into 3 shares after heat exchange with the reaction product: Raw material 1, Raw material 2, Raw material 3, which are respectively used as the first reactor (equivalent to the initial reactor), the second reactor, and the third reaction The reactor (equivalent to the end reactor) feeds, and the flow ratio is 1:2:8. The raw material 3 enters the third reactor and undergoes a radial moving bed contact reaction with the pre-passiv...

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Abstract

The invention relates to a moving bed methanol aromatization method for coproducing liquefied gas. The method comprises the steps of hydrocarbon synthesis and separation, at least two serially connected reactors are adopted in the hydrocarbon synthesis step, a reaction raw material and a catalyst sequentially flow through the reactors in a countercurrent direction, and most low carbon olefin-containing circulation gas generated in the separation step returns to different feeding positions in the hydrogen synthesis step as quenching gas or raw material supplement gas in the hydrocarbon synthesis step, a small part of the circulation gas is fractioned through a liquefied gas removal tower, and a raw material methanol is used to wash and absorb C1-C4 light components generated in the separation step, returns, is fed and is converted. The method allows methanol to be converted into mixed aromatic hydrocarbons with high added values and liquefied gas to be produced as a byproduct. The method allows step complete utilization of the activity of the catalyst to be carried out, so the method improves the fine control of the reaction process, realizes effective material utilization and heat integration between processing processes, improves the product yield, reduces energy consumption and reduces environmental pollution.

Description

Technical field [0001] The invention relates to a methanol-to-hydrocarbon process for co-producing liquefied gas using a moving bed. Background technique [0002] BTX aromatics (Benzene, Toluene, Xylene) are important basic raw materials for petrochemical industry, among which para-xylene (PX) has the largest demand. With the rapid expansion of domestic PX downstream PTA and polyester production capacity, the supply of PX on the market is seriously insufficient. By 2013, my country's dependence on foreign p-xylene has reached 55.3%, and the supply and demand gap has further increased. The traditional technology production PX project is difficult to construct, the production technology threshold is high, and the investment is large, and it is more restricted by the raw material naphtha resources. The current shortage of petroleum resources in my country and the increase in consumer demand have caused a shortage of resources such as naphtha, light diesel, and other raw materials f...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10G3/00B01J8/08C07C1/20C07C15/02C07C15/08C10L3/12
CPCY02P20/52Y02P30/20
Inventor 周华堂许贤文刘林洋李利军劳国瑞李盛兴丰存礼孙富伟卢秀荣刘德新
Owner CHINA KUNLUN CONTRACTING & ENG
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