Chloromethane synthesis reaction heat gradient comprehensive utilization process

A synthesis reaction and methyl chloride technology, which is applied to the process field of comprehensive utilization of heat in the synthesis reaction of methyl chloride, can solve the problems of not considering the recovery of liquid catalysts, the condensate cannot be fully returned to the kettle for reaction, and the complete vaporization of methanol cannot be guaranteed. Solve the problem of catalyst loss, easy automatic control, and the effect of preventing flying temperature

Active Publication Date: 2020-11-17
HUALU ENG & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the above devices have shortcomings. On the one hand, it cannot guarantee the complete vaporization of methanol under fluctuating conditions. On the other hand, this method does not consider the recovery of the syngas condensate and the liquid catalyst brought out by the gas entrainment phenomenon.
In addition, the synthesis gas in this device adopts one-stage gas-liquid separation, and the amount of condensed liquid cannot be controlled. In addition, due to the limitation of process conditions, all the condensed liquid cannot be returned to the kettle for reaction. If the reuse of condensed liquid is considered, there is also the problem of catalyst loss.

Method used

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  • Chloromethane synthesis reaction heat gradient comprehensive utilization process

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Effect test

Embodiment 1

[0020] Liquid methanol comes from the storage tank at a temperature of 25°C, enters the device area, is divided into two streams of equal volume, and enters the primary vaporizer 2 and the secondary vaporizer 4 respectively. The high-temperature synthesis gas has a temperature of 150°C and is extracted from the methanol synthesis tank 1 and enters the primary vaporizer 2 to exchange heat with methanol. The methanol leaving the primary vaporizer 2 is all vaporized and sent to the methanol feeding section. The synthesis gas exiting the primary vaporizer 2 enters the primary gas-liquid separation tank 3 for separation.

[0021] In the primary gas-liquid separation tank 3 , the synthesis gas exiting the primary gas-liquid separation tank 3 enters the secondary vaporizer 4 . The main components of the liquid phase out of the primary gas-liquid separation tank 3 are hydrochloric acid, by-products, and catalysts entrained by the synthesis gas, which are recycled to the methyl chlori...

Embodiment 2

[0026] Liquid methanol comes from the storage tank at a temperature of 25°C, enters the device area, is divided into two streams of unequal quantities, and enters the primary vaporizer 2 and the secondary vaporizer 4 respectively. The high-temperature synthesis gas is extracted from the methanol synthesis tank 1 and enters the primary vaporizer 2 for heat exchange with methanol. The methanol coming out of the primary vaporizer 2 is completely vaporized at a temperature of 90°C and sent to the methanol feeding section. The synthesis gas exiting the primary vaporizer 2 enters the primary gas-liquid separation tank 3 for separation.

[0027] In the primary gas-liquid separation tank 3 , the synthesis gas exiting the primary gas-liquid separation tank 3 enters the secondary vaporizer 4 . The main components of the liquid phase of the first-stage gas-liquid separation tank 3 are methanol, water, by-products and catalysts entrained by the synthesis gas, which are recycled to the me...

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Abstract

The invention discloses a chloromethane synthesis reaction heat gradient comprehensive utilization process. High-temperature synthesis gas discharged from the chloromethane synthesis kettle is subjected to heat exchange through the first-stage vaporizer, the second-stage vaporizer and the water cooler in sequence, and the unreacted components (hydrogen chloride or methanol) in a reaction product are recycled, and meanwhile, liquid methanol is vaporized, so that utility consumption is greatly reduced. Compared with the prior art, the process has the advantages that the heat of the high-temperature synthesis gas is utilized in a gradient manner, the consumption of process steam and circulating water is greatly reduced, unreacted components are recycled, and the material consumption is reduced. Furthermore, the process can better adapt to various working conditions deviating from the design point, such as reaction speed fluctuation, methanol or hydrogen chloride feeding amount fluctuation, gas phase composition temperature fluctuation and the like, and is high in automation degree, high in reliability and easy for industrial application.

Description

technical field [0001] The invention belongs to the field of methyl chloride synthesis, and in particular relates to a stepwise comprehensive utilization process of reaction heat of methyl chloride synthesis. Background technique [0002] Chloromethane is an important raw material for organic silicon, pesticides and other products. At present, the synthesis methods of methyl chloride mainly include homogeneous gas-phase method, gas-solid catalytic method and gas-liquid method. Among them, the gas-liquid method has mild reaction conditions and high reaction selectivity, and is most widely used in the actual production process. However, in the traditional gas-liquid production process, the raw material methanol is usually heated and vaporized by low-pressure steam, and then enters the methyl chloride synthesis tank with hydrogen chloride gas, and reacts under the catalysis of zinc chloride solution to form methyl chloride. The high-temperature synthesis gas (about 150°C) exi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07C17/16C07C17/38C07C19/03
CPCC07C17/16C07C17/38C07C19/03Y02P20/584
Inventor 尚剑李佳曹锐建陈维平骆彩萍
Owner HUALU ENG & TECH
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