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A method for simultaneously preparing low-viscosity methoxymagnesium ionic liquid and high-pressure hydrogen

A technology of magnesium methoxylate and ionic liquid, which is applied in the field of simultaneously preparing low-viscosity magnesium methoxylate ionic liquid and high-pressure hydrogen gas, can solve the problems of unfavorable industrial production and preparation, high equipment requirements, and high input cost, and achieves the goal of being beneficial to manufacturing. , the preparation process is simple and the equipment is simple

Active Publication Date: 2018-08-28
GUANGXI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] A device for preparing high-pressure hydrogen using metal hydrides (CN201310628587.6). This invention discloses a device for preparing high-pressure hydrogen using metal hydrides, which belongs to the static compression technology field of hydrogen. The device consists of a control component, a heating circuit, a cooling Circuit, reaction bed, etc., using Ti-Mn-based, Ti-Cr-based and other metal hydrides can pressurize 0.2MPa hydrogen to 20MPa, the pressurization ratio reaches 100, and the output gas purity reaches 99.999%, but the equipment is limited to Hydrogen compression, and the input cost of equipment is relatively high
Zhu Gang et al.'s "Methanol Cracking on MgO Supported Transition Metal Catalysts to Produce Hydrogen" research shows that methanol can be cracked under the catalyst to produce hydrogen-rich gas, but the reaction temperature is 600°C, which requires high equipment and consumes a lot of energy. , not conducive to industrial production

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] The mass ratio of magnesium powder and anhydrous methanol is 1:2, wherein the magnesium powder is 50g and the particle size is 20 mesh; anhydrous methanol is 100g. Put magnesium powder and anhydrous methanol into a 2L autoclave, and vacuumize the autoclave to a vacuum of 70.0kPa, then use N 2 The air in the autoclave was replaced twice, and the N 2 The pressure is 0.1MPa to prevent danger caused by residual oxygen in the kettle. Turn on the heating switch of the autoclave to heat up. When the temperature rises to 40°C, turn off the heating switch. The heat released by the reaction will continue to heat up to carry out the chemical reaction. Make the magnesium powder and methanol react in the autoclave for 6 hours, and then cool the autoclave. After reaching 30°C, the hydrogen gas generated by the reaction is released to reach normal pressure, and then the material is discharged. The liquid phase reaction product is distilled off at 60°C to remove excess methanol, and t...

Embodiment 2

[0028] The mass ratio of magnesium powder and anhydrous methanol is 1:10, wherein the magnesium powder is 50g, the particle size is 200 mesh; anhydrous methanol is 500g. Put magnesium powder and anhydrous methanol into a 2L autoclave, and vacuum the autoclave to a vacuum of 95.0kPa, then use N 2 The air in the autoclave was replaced 5 times, and the N 2 The pressure is 0.5MPa to prevent danger caused by residual oxygen in the kettle. Turn on the heating switch of the autoclave, heat up the temperature, turn off the heating switch when the temperature rises to 100°C, and continue to heat up to carry out the chemical reaction with the heat released by the reaction, make the magnesium powder and methanol react in the autoclave for 1 hour, and then cool the autoclave After reaching 30°C, the hydrogen gas generated by the reaction is released to reach normal pressure, and then the material is discharged. The liquid phase reaction product is distilled off at 90°C to remove excess m...

Embodiment 3

[0030] The mass ratio of magnesium powder and anhydrous methanol is 1:4, wherein the magnesium powder is 50g, the particle size is 30 mesh; anhydrous methanol is 200g. Put magnesium powder and anhydrous methanol into a 2L autoclave, and vacuumize the autoclave to a vacuum of 82.0kPa, then use N 2 The air in the autoclave was replaced twice, and the N 2 The pressure is 0.2MPa to prevent danger caused by residual oxygen in the kettle. Turn on the heating switch of the autoclave, heat up the temperature, turn off the heating switch when the temperature rises to 50°C, and continue to heat up to carry out the chemical reaction with the heat released by the reaction, make the magnesium powder and methanol react in the autoclave for 2 hours, and then cool the autoclave To 25°C, release the hydrogen generated by the reaction and reach normal pressure, then discharge the material, take the liquid phase reaction product and distill off excess methanol at 70°C, the remaining light yello...

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Abstract

The invention discloses a method for simultaneous preparation of low viscosity methoxyl magnesium ionic liquid and high-pressure hydrogen. The steps are as below: (1) adding magnesium powder and methanol into a reactor; (2) opening the heating switch of a reactor, heating to rise the temperature, switching off the heating switch when the temperature rises to a certain degree, and reacting magnesium powder and methanol for 1-6 h; (3) cooling the reactor reaction, discharging the hydrogen gas generated in the reaction until atmospheric pressure is reached in the reactor, discharging the material, taking a liquid product, distilling to remove excess methanol to obtain the remaining melt which is methoxyl magnesium ionic liquid. The method of the present invention simultaneously prepares low viscosity methoxyl magnesium ionic liquid and high pressure hydrogen, has the advantages of simple preparation process, simple device and high reaction conversion rate; the low viscosity methoxyl magnesium ionic liquid has viscosity of 10-30m Pa.S and is conducive to the application in catalyst and extraction. The prepared hydrogen haspressure up to 1.0-60.0 MPa, and purity of greater than 99.99%.

Description

technical field [0001] The invention belongs to the technical field of chemical reaction engineering, and in particular relates to a method for simultaneously preparing low-viscosity methoxymagnesium ionic liquid and high-pressure hydrogen. Background technique [0002] Ionic liquid, also known as room temperature ionic liquid, refers to an organic salt composed entirely of anions and cations at or near room temperature. Compared with traditional organic solvents and electrolyte solutions, ionic liquids have the following unique advantages: (1) unique properties such as non-volatility, non-flammability, conductivity, catalysis, separation, coordination, chirality, etc., are a special class of solvents and Functional materials; (2) High thermal stability, wide liquid temperature range, adjustable acidity and alkalinity, polarity, coordination ability, and solubility to organic matter, inorganic matter, polymers, gases, etc. make ionic liquids become Excellent reaction media ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C07C29/70C07C31/28C01B3/22
CPCC01B3/22C01B2203/0272C01B2203/06C01B2203/1223C07C29/70C07C31/28
Inventor 陈小鹏王琳琳梁杰珍张海斌
Owner GUANGXI UNIV
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