The mineral ore slag dryer suitable for copper fine powder, tungsten concentrate, ilmenite, refined iron ore, feldspar ore powder, manganese ore, lead-zinc ore, pyritic ore, high-titanium slag, silica sand, gold slag and other abrasive materials.
1. Efficient Drying: Mineral slag dryers are designed to handle high-moisture materials efficiently, ensuring that the ore or mineral is dried to the desired moisture content.
2. Energy Efficient: Mineral slag dryers usually incorporate energy-saving technologies, such as heat recovery systems, to reduce operating costs.
3. Flexible Operation: Mineral slag dryers can be adapted to handle a wide range of materials and moisture contents, making them versatile for different applications.
4. Durable and Reliable: These dryers are built to withstand the harsh conditions of the mining and building industries, providing reliable performance over long periods of time.
Energy-saving design is usually adopted, which helps to reduce energy consumption and operating costs and improve the economic benefits of equipment.
Users can easily control the operating status and parameter settings of the equipment through a simple operation interface, reducing manual intervention and operating difficulty.
Made of high-quality materials and advanced manufacturing technology, it has high stability and reliability. The equipment can operate normally in harsh working environments and has a long service life.
It can efficiently remove moisture from materials and improve the drying efficiency of materials. It speeds up the production process, reduces waiting time, and ensures the quality of materials.
The slag is sent to the hopper by a belt conveyor or bucket elevator, and then enters the feeding end through the feeding pipe through the feeding machine of the hopper. The material is added from the higher end, and the heating medium enters from the lower end, and is in countercurrent contact with the material. When the wet material moves forward in the cylinder, it directly or indirectly receives heat from the heating medium, so that the wet material can be dried, and then sent out through a belt or screw conveyor at the discharge end. In addition, dust collectors can also be used to reduce dust in the drying system.
| Model | Capacity(T/D) | Initial moisture(%) | Final moisture(%) | Total Power(kw) | Covering area(m²) |
| DLMG1916 | 300 | 20-30% | <5% | 130 | 42*16 |
| DLMG2220 | 500 | 150 | 46*16 | ||
| DLMG2522 | 800 | 200 | 48*16 | ||
| DLMG2825 | 1000 | 250 | 51*16 | ||
| DLMG3026 | 1300 | 280 | 52*18 | ||
| DLMG3228 | 1500 | 330 | 55*18 | ||
| DLMG3430 | 1800 | 380 | 56*18 | ||
| DLMG3632 | 2200 | 450 | 58*18 | ||
| DLMG3835 | 2700 | 560 | 60*18 | ||
| DLMG4036 | 3000 | 660 | 60*18 | ||
| Note: the capacity of equipment is directly related to the reduction of water content of coal. The proportion of precipitation is large, and the production capacity of equipment decreases correspondingly. Specific consulting Dingli company. | |||||
*The output will vary according to different materials, feed particle size and other factors
Company: Zhengzhou Dingli New Energy Technology Co., Ltd
Group headquarters: Zhengzhou High Tech Zone, Henan Province, China
Whatsapp: +86 153-3371-8778
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