 |
| Quantity: | |
|---|---|
[Usage]
Carbon nano tubes (CNTS) are a kind of nano materials with excellent properties, which are widely used in the fields of electronics, energy and materials. Tubular furnace is one of the commonly used equipment in the production process of carbon nano tubes, and its main use is the continuous production of carbon nano tubes at high temperature.Through the tube furnace, the growth conditions of carbon nano tubes can be controlled, such as temperature, atmosphere, etc., so as to obtain high-quality carbon nano tubes. In addition, tubular furnaces can also achieve large-scale production and improve the yield and production efficiency of carbon nano tubes.
Tubular stoves for continuous production of carbon nano tubes advantages:
1.Efficient production: Tubular furnaces can achieve continuous production of carbon nanotubes, greatly improving production efficiency and output。
2.Precise control: The tube furnace can precisely control the growth conditions, such as temperature, atmosphere, etc., to obtain high-quality carbon nanotubes.
3.Large-scale production: Tubular furnaces are suitable for large-scale production and can handle multiple reaction tubes at the same time to achieve mass production.
4.Economic benefits: Continuous production of tubular stoves has lower operating costs and energy consumption, which can provide economic benefits.
5.Flexibility: Tubular furnaces can be adjusted and optimized as needed to accommodate different materials and production requirements.
Control parameters
No. | Parameter Name | Parameter Values | Unit | Remark |
1 | Temperature | RT~950 | ℃ | —— |
2 | Temperature control capability | ±1.0 | ℃ | —— |
3 | Pressure | ≤1 | MPa | —— |
4 | Pressure control capability | ±0.05 | MPa | —— |
5 | carrier gas flow | ≤40 | L/min | —— |
6 | Carbon source gas flow | ≤40 | L/min | —— |
7 | Flow control capability | ±1.5%FS(20-100%) | —— | —— |
8 | Catalyst addition | ≤50 | g | Per catalyst |
9 | Powder production | ≤200 | g | —— |
10 | Furnace section | 3 | section | —— |
11 | Power per stage | ≤10 | kw | —— |
12 | total power | ≤30 | kw | —— |
13 | Dynamic gas pressure | ≤0.7 | mpa | —— |
14 | Power gas demand | ≥0.12 | m³/min | —— |
[Usage]
Carbon nano tubes (CNTS) are a kind of nano materials with excellent properties, which are widely used in the fields of electronics, energy and materials. Tubular furnace is one of the commonly used equipment in the production process of carbon nano tubes, and its main use is the continuous production of carbon nano tubes at high temperature.Through the tube furnace, the growth conditions of carbon nano tubes can be controlled, such as temperature, atmosphere, etc., so as to obtain high-quality carbon nano tubes. In addition, tubular furnaces can also achieve large-scale production and improve the yield and production efficiency of carbon nano tubes.
Tubular stoves for continuous production of carbon nano tubes advantages:
1.Efficient production: Tubular furnaces can achieve continuous production of carbon nanotubes, greatly improving production efficiency and output。
2.Precise control: The tube furnace can precisely control the growth conditions, such as temperature, atmosphere, etc., to obtain high-quality carbon nanotubes.
3.Large-scale production: Tubular furnaces are suitable for large-scale production and can handle multiple reaction tubes at the same time to achieve mass production.
4.Economic benefits: Continuous production of tubular stoves has lower operating costs and energy consumption, which can provide economic benefits.
5.Flexibility: Tubular furnaces can be adjusted and optimized as needed to accommodate different materials and production requirements.
Control parameters
No. | Parameter Name | Parameter Values | Unit | Remark |
1 | Temperature | RT~950 | ℃ | —— |
2 | Temperature control capability | ±1.0 | ℃ | —— |
3 | Pressure | ≤1 | MPa | —— |
4 | Pressure control capability | ±0.05 | MPa | —— |
5 | carrier gas flow | ≤40 | L/min | —— |
6 | Carbon source gas flow | ≤40 | L/min | —— |
7 | Flow control capability | ±1.5%FS(20-100%) | —— | —— |
8 | Catalyst addition | ≤50 | g | Per catalyst |
9 | Powder production | ≤200 | g | —— |
10 | Furnace section | 3 | section | —— |
11 | Power per stage | ≤10 | kw | —— |
12 | total power | ≤30 | kw | —— |
13 | Dynamic gas pressure | ≤0.7 | mpa | —— |
14 | Power gas demand | ≥0.12 | m³/min | —— |
