Technological method for producing acetylene by efficient calcium carbide process

A process method, the technology of calcium carbide method, is applied in the field of high-efficiency calcium carbide method to produce acetylene, which can solve the problems of large area of ​​equipment, poor control of reaction, affecting gas production, etc., to save site space, prevent liquid splashing, and increase gas production. Effect

Active Publication Date: 2017-09-05
HWASU
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the prior art, the dry method refers to directly spraying water onto the surface of calcium carbide, and utilizes the heat of reaction to evaporate water, and the reaction is violent and difficult to control; the wet method refers to adding calcium carbide to water, and the generated lime milk is easy to cover the surface of the calcium carbide, or Lime milk is mostly suspended in the reaction system, which reduces the contact area between calcium carbide and water, thereby affecting the normal progress of the reaction, resulting in incomplete calcium carbide reaction and affecting the gas pr

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] A process for producing acetylene by a high-efficiency calcium carbide method, comprising the steps of:

[0031] (1) Add a mixture of 125L of saturated saline and 125L of 5% sodium hydroxide aqueous solution into the jacketed 500L reactor, feed hot water into the jacket, and control the internal temperature at 45-55°C ;

[0032] (2) Use a vacuum pump to evacuate the reactor to a vacuum degree of -0.1MPa;

[0033] (3) Use a ball mill to pulverize 50Kg calcium carbide into 800-mesh fresh powder, turn on the air pump in the vacuum powder feeder connected to the discharge port of the ball mill, and form a negative pressure vacuum airflow of -0.5MPa when the air pump rotates , the fresh powder is sucked into the hopper through the suction pipe. When the hopper is full, the air pump stops working, and then the hopper door is opened to a suitable size. Combined with the weight sensor at the bottom of the hopper door, the fresh powder is dropped into the reactor in a decreasin...

Embodiment 2

[0037] A process for producing acetylene by a high-efficiency calcium carbide method, comprising the steps of:

[0038] (1) Add a mixture of 300L of saturated saline and 100L of 15% sodium hydroxide aqueous solution into the 500L reactor with a jacket, pass hot water into the jacket, and control the internal temperature at 45-55°C ;

[0039] (2) Use a vacuum pump to evacuate the reactor to a vacuum degree of -0.1MPa;

[0040] (3) Use a ball mill to pulverize 40Kg calcium carbide into 400-mesh fresh powder, turn on the air pump in the vacuum powder feeder connected to the discharge port of the ball mill, and form a negative pressure vacuum airflow of -0.5MPa when the air pump rotates , the fresh powder is sucked into the hopper through the suction pipe. When the hopper is full, the air pump stops working, and then the hopper door is opened to a suitable size. Combined with the weight sensor at the bottom of the hopper door, the fresh powder is dropped into the reactor in a dec...

Embodiment 3

[0044] A process for producing acetylene by a high-efficiency calcium carbide method, comprising the steps of:

[0045] (1) Add a mixture of 200L of saturated saline and 100L of 10% potassium hydroxide aqueous solution into the jacketed 500L reaction kettle, pass hot water into the jacket, and control the internal temperature at 45-55°C ;

[0046] (2) Use a vacuum pump to evacuate the reactor to a vacuum degree of -0.1MPa;

[0047] (3) Use a ball mill to pulverize 50Kg calcium carbide into 600-mesh fresh powder, turn on the air pump in the vacuum powder feeder connected to the discharge port of the ball mill, and form a negative pressure vacuum airflow of -0.5MPa when the air pump rotates , the fresh powder is sucked into the hopper through the suction pipe. When the hopper is full, the air pump stops working, and then the hopper door is opened to a suitable size. Combined with the weight sensor at the bottom of the hopper door, the fresh powder is dropped into the reactor in...

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PUM

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Abstract

The invention provides a technological method for producing acetylene by an efficient calcium carbide process, which comprises the following steps: grinding calcium carbide, and then degressively adding into a vacuum reactor, wherein the internal temperature of the vacuum reactor is 45-55 DEG C and the vacuum reactor contains a mixture of a saturated salt solution and an alkaline water solution; controlling the temperature of the whole reaction system to be not higher than 70 DEG C; and introducing acetylene gas subjected to preliminary purification into an acidic water solution and concentrated sulfuric acid sequentially for carrying out secondary purification, so as to obtain highly pure acetylene gas. Compared with the prior art, the technological method provided by the invention has the following advantages: a generated pasty calcium hydroxide solid quickly settles so as to prevent the surface of powdered calcium carbide from being wrapped and affecting the continuous operation of the reaction; the gas production reaction is carried out under relatively mild conditions, and a baffle does not need to be arranged in the reactor; the solubility of non-polar acetylene gas in the solution is reduced, the solubility of polar gas, such as hydrogen sulfide, hydrogen phosphide and hydrogen arsenide, in the solution is increased, and the gas production rate and the acetylene gas purity are increased; and the reaction process and the preliminary purification process are carried out in one reactor, thereby saving the field.

Description

technical field [0001] The invention relates to the technical field of acetylene preparation methods, in particular to a high-efficiency calcium carbide method for producing acetylene. Background technique [0002] Acetylene, commonly known as wind coal and calcium carbide gas, is the smallest member of the alkyne compound series. It is mainly used for industrial purposes, including welding metals and for the synthesis of vinyl chloride and polyvinyl chloride substances. Acetylene has the danger of violent explosion in liquid and solid state or in gaseous state and certain pressure, and it can be caused by factors such as heat, vibration, electric spark and so on. The industrial production methods of acetylene mainly include calcium carbide method and hydrocarbon cracking method, among which the former is more commonly used, and calcium carbide method is divided into dry method and wet method. In the prior art, the dry method refers to directly spraying water onto the surfa...

Claims

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Application Information

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IPC IPC(8): C10H21/00
CPCC10H21/00
Inventor 丘永桂李毅邹成磊魏昭辉张艳明
Owner HWASU
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