Structural characteristics of continuous carbonizing furnace
Continuous carbonizing furnace is an efficient production equipment, and its structural characteristics make it have excellent performance and stability in the production process.
The following will introduce the structural features of continuous carbonizing furnace in detail.
1. Compact structure. The whole structure of continuous carbonizing furnace is very compact and occupies a small area, which makes it very convenient to use in factories. Secondly, the internal structure design of continuous carbonizer is very reasonable, which can effectively control the temperature and atmosphere in the production process, thus ensuring the quality and stability of products.
2. Reasonable design Continuous carbonizer usually adopts multi-segment design, and each segment has different functions. It mainly includes a feeding section, a pyrolysis section, a carbonization section, a cooling section and a discharging section. Among them, the feeding section is the part where raw materials are sent into the furnace, the pyrolysis section is the part where raw materials are heated to high temperature and decomposed, the carbonization section is the part where decomposed raw materials are carbonized, the cooling section is the part where products are cooled to room temperature, and the discharging section is the part where products are taken out of the furnace. In the production process of continuous carbonizer, both the feeding section and the discharging section are sealed, which can effectively prevent external gas from entering the furnace, thus ensuring the quality and stability of products. At the same time, the constant temperature control technology is adopted in the whole production process, which can accurately control the temperature, thus ensuring the stability and consistency of the production process. For example, the front section is mainly responsible for preheating and drying raw materials, the middle section is responsible for carbonization reaction, and the back section is responsible for cooling and discharging. This design can make the whole carbonization process smoother and more efficient.
3. Air flow control The air flow control of continuous carbonizing furnace is very important, because it directly affects the speed and effect of carbonization reaction. Generally speaking, the gas flow should be evenly distributed in the furnace and can fully contact with the raw materials, thus promoting the carbonization reaction.
4. Automatic control Carbonizing furnace has also adopted advanced automatic control system, which can monitor and control the production process in real time, thus ensuring the efficiency and safety of the production process. At the same time, advanced waste gas treatment technology is adopted in the production process, which can effectively reduce waste gas emissions and protect the environment. In addition, automatic control can also improve production efficiency and product quality, and reduce human error.
5. Energy conservation and environmental protection In the design of continuous carbonizer, the factors of energy saving and environmental protection are also considered. For example, a circulating fan and waste gas treatment equipment are installed in the furnace, which can remove harmful substances from waste gas and recycle waste heat. This can not only reduce production costs, but also reduce environmental pollution.
The above are the main structural features of continuous carbonizing furnace. It is precisely because of its structural advantages that it has excellent performance and stability in the production process.