CN1603037A - Method for preparing superfine nickel carbonyl powder by nickel carbonyl thermal decomposition - Google Patents

Abstract

The invention discloses a method that is used to prepare superfine carbonyl nickel powder by the carbonyl nickel thermal decomposition. The method is that the carbonyl nickel and the carbon monoxide gas are mixed admission the decomposer to mix with the carbon monoxide main heat source gas whose preheating temperature is from two hundred and forty centigrade degree to three hundred twenty centigrade degree to make the carbonyl nickel decompose to from superfine carbonyl nickel powder whose granularity is from twenty nanometer to ten millimeter. The pressure of the decomposer is from 0.02MPa to 0.2MPa in the whole decomposition process. The invention avoids the complicated operation of separating the mixed gas after the decomposition, simplifies the preparation technology, reduces the cost of the production, and greatly reduces the produce of the wall built up.

Description

The carbonyl nickel thermal decomposition prepares the method for ultra-fine carbonyl nickel powder

Technical field

The present invention relates to the method that a kind of carbonyl nickel thermal decomposition prepares ultra-fine carbonyl nickel powder.

Background technology

Ultra-fine carbonyl nickel powder has great bulk effect and skin effect, shows many special natures at aspects such as magnetic, interior pressure, thermal resistance, light absorption and chemisms, thereby is widely used in fields such as the energy, electronics, material and nuclear industry.The production capacity of ultra-fine carbonyl nickel powder is about 150,000 tons in the world at present.Wherein International Nickel company of Canada Ltd. (INCO) has captured about 95% market, and Russian northern nickel company produces ultra-fine carbonyl nickel powder per year and is about 5000 tons, mainly supplies its domestic consumption.With regard to its preparation method, nothing more than two kinds: a kind of method is to enter decomposer after utilizing the carbonyl nickel steam and carbon monoxide mixing, and makes its decomposition in the heating of decomposer outer wall, prepares ultra-fine carbonyl nickel powder; Another method is to utilize nitrogen and carbonyl nickel to be mixed into decomposer with certain proportion, mixes with high temperature nitrogen to make carbonyl nickel decompose the ultra-fine carbonyl nickel powder of preparation again.The former is because thermal source is that heating reaches the condition that carbonyl nickel decomposes by the decomposer outer wall fully, wall temperature generally have relatively high expectations (about 500 ℃), after causing decomposable process carbonyl nickel molecule to run into the wall device, can be decomposed to form particle on wall also grows up gradually, produce a large amount of wall built-up things, influence the distribution of particle sizes and the serviceability of product; The latter is owing to use nitrogen to be main heat source, and the carbon monoxide that produces in the carbonyl nickel decomposable process can mix with nitrogen, and these two kinds of gases must carry out separating treatment before recycling, increased complex process degree and production cost.For this reason, must carry out innovative research to the decomposition technique of ultra-fine carbonyl nickel powder.

Summary of the invention

The objective of the invention is in decomposer, produce a large amount of wall things and must carry out the deficiency that mist separates and provide a kind of carbonyl nickel thermal decomposition to prepare the method for ultra-fine carbonyl nickel powder for overcoming ultra-fine carbonyl nickel powder in the prior art.

The present invention prepares in the process of ultra-fine carbonyl nickel powder in the carbonyl nickel thermal decomposition, using carbon monoxide is that main thermal source, decomposer outer wall are the attached thermal source that helps, the ultra-fine carbonyl nickel powder of preparation variable grain degree, reduce the wall built-up thing thereby reach, increase product particle degree dimensional homogeneity, avoid the purpose of mist separating technology operation.

A kind of carbonyl nickel thermal decomposition prepares the method for ultra-fine carbonyl nickel powder, it is characterized in that the mist of this method with carbonyl nickel steam and CO gas composition, and temperature is 240-320 ℃ CO gas, feeds respectively and carries out mixed decomposition in the decomposer; In the decomposable process, control decomposer pressure 0.02-0.2MPa, decomposer internal temperature maintain 250-280 ℃, make carbonyl nickel be decomposed to form the ultra-fine carbonyl nickel powder that granularity is 20nm-10 μ m.

In the mist of the present invention's narration, the volume of carbonyl nickel steam and CO gas is 1: 1-4.

The volume ratio of the CO gas of carbonyl nickel steam of the present invention and 240-320 ℃ is 1: 2-8.

Before feeding gas, the wall temperature of decomposer is heated to 240-280 ℃.

After the present invention uses carbon monoxide as thermal source gas, reduced the generation of carbonyl nickel powder wall built-up thing, avoided using the gas separation problem of nitrogen as main heat source.

The present invention has compared following substantive features with prior art:

1, thermal decomposition prepares the main heat source of ultra-fine carbonyl nickel powder as carbonyl nickel with carbon monoxide, and the decomposer outer wall heats as auxiliary thermal source, the ultra-fine carbonyl nickel powder of preparation different-grain diameter.

2, avoid employing nitrogen as carrying out the gas complicated operation of separating in the ultra-fine carbonyl nickel powder main heat source technology of preparation, simplified preparation technology.

3, adopt the heating of decomposer outer wall as auxiliary thermal source, effectively reduce wall cling phenomenon, increased the uniformity and the output of powder body material, reduced production cost.

The specific embodiment

Embodiment 1: the decomposer outer wall is heated to 280 ℃, feeds 320 ℃ carbon monoxide preheating gas, and its flow velocity is 10L/min; Is the CO gas of 5L/min mix after to enter decomposer with flow velocity with the speed of 5L/min with the evaporation nickel carbonyl gas in the distribution jar, the decomposer internal temperature is maintained between 270-280 ℃, and then carbonyl nickel decomposes and the ultra-fine carbonyl nickel powder of formation particle diameter between 1-10 μ m.Decomposer pressure maintains 0.02-0.2MPa in the whole decomposable process.No obvious wall built-up thing after the carbonyl nickel decomposition is finished.

Embodiment 2: the decomposer outer wall is heated to 260 ℃, feeds 300 ℃ carbon monoxide preheating gas, and its flow velocity is 20L/min; Is that the CO gas of 12L/min be mixed into enter decomposer with flow velocity with 5L/min speed with the evaporation nickel carbonyl gas in the distribution jar, the decomposer internal temperature is maintained between 250-260 ℃, and then carbonyl nickel decomposes and the ultra-fine carbonyl nickel powder of formation particle diameter between 100nm-1 μ m.Whole decomposable process closes to be separated device pressure and maintains 0.02-0.2MPa.No obvious wall built-up thing after the carbonyl nickel decomposition is finished.

Embodiment 3: decompose outside wall temperature and be heated to 240 ℃, feed 290 ℃ carbon monoxide preheating gas, its flow velocity is 30L/min; Is that the CO gas of 17L/min be mixed into decomposer with flow velocity with the 5L/min flow velocity with the evaporation nickel carbonyl gas in the distribution jar, the decomposer internal temperature maintains between 260-270 ℃, and then carbonyl nickel decomposition and formation particle diameter are the ultra-fine carbonyl nickel powder of 50-100nm.Decomposer pressure maintains between the 0.02-0.2MPa in the whole decomposable process.No obvious wall built-up thing after the carbonyl nickel decomposition is finished.

Embodiment 4: the decomposer outside wall temperature is heated to 250 ℃, feeds 280 ℃ carbon monoxide preheating gas, and its flow velocity is 40L/min; Is the CO gas of 20L/min mix after to enter decomposer with flow velocity with the carbonyl nickel steam of 5L/min flow velocity in the distribution jar, the decomposer internal temperature maintains between 250-260 ℃, and then carbonyl nickel decomposition and formation particle diameter are the ultra-fine carbonyl nickel powder of 20-50nm.The decomposer internal pressure maintains between the 0.02-0.2MPa in the whole decomposable process.No obvious wall built-up thing after decomposition is finished.

Claims (4)

1, a kind of carbonyl nickel thermal decomposition prepares the method for ultra-fine carbonyl nickel powder, it is characterized in that the mist of this method with carbonyl nickel steam and CO gas composition, and temperature is 240-320 ℃ CO gas, feeds respectively and carries out mixed decomposition in the decomposer; In the decomposable process, control decomposer pressure 0.02-0.2MPa, decomposer internal temperature maintain 250-280 ℃, make carbonyl nickel be decomposed to form the ultra-fine carbonyl nickel powder that granularity is 20nm-10 μ m.

2,, it is characterized in that the volume of carbonyl nickel steam and CO gas is 1 in the mist: 1-4 as the said method of claim 1.

3, as the said method of claim 1, the volume ratio that it is characterized in that carbonyl nickel steam and 240-320 ℃ CO gas is 1: 2-8.

4,, it is characterized in that the wall temperature of decomposer is heated to 240-280 ℃ before feeding gas as the said method of claim 1.