Application: mineral stone, slag, tailings, mineral powder, minerals, silica sand, fluorite powder, feldspar, iron ore, etc
1.9-76t/hProcessing capacity
9-285m³Cylinder capacity
Application: mineral stone, slag, tailings, mineral powder, minerals, silica sand, fluorite powder, feldspar, iron ore, etc
iron ore
gold ore
slag
mineral powder
The thermal efficiency is 80% to 90%. The new internal structure strengthens heat conduction of dispersed materials, and eliminates the sticking phenomenon of the inner wall of the cylinder.
Since the heating mode is easy to control, the temperature inside the cylinder and the heat transfer rate of the partition wall can be kept relatively stable.
The cylinder of the dryer is made of steel material, which has the characteristics of high hardness and high toughness.
The dryer system has good sealing performance, and is equipped with a complete dust removal device, with little dust spillage and a good operating environment.
Our drying equipment has been exported to more than 160 countries, such as Indonesia, Malaysia, Ethiopia, Nigeria, South Africa, Pakistan, Egypt, etc. The following is the site of our customer's drying machine.
Rotary dryer
Indirect heat transfer dryer
Spec./m | Shell Cubage | Capacity(t/h) | Installation(%) | Highest Inlet Air Temperature(℃) |
Main Motor |
Ø1.2×8 | 9 | 1.9-2.4 | 3-5 | 700-800 | 7.5 |
Ø1.2 ×10 | 11.3 | 2.4-3 | 3-5 | 700-800 | 7.5 |
Ø 1.5×12 | 21.2 | 4.5-5.7 | 3-5 | 700-800 | 15 |
Ø 1.5×14 | 24.7 | 5.3-6.6 | 3-5 | 700-800 | 15 |
Ø1.5×15 | 26.5 | 5.7-7.1 | 3-5 | 700-800 | 15 |
Ø 1.8×12 | 30.5 | 6.5-8.1 | 3-5 | 700-800 | 18.5 |
Ø 1.8×14 | 35.6 | 7.6-9.5 | 3-5 | 700-800 | 18.5 |
Ø 2.2×12 | 45.6 | 9.7-12.2 | 3-5 | 700-800 | 22 |
Ø 2.2×14 | 53.2 | 11.4-14.2 | 3-5 | 700-800 | 22 |
Ø 2.2×16 | 60.8 | 13-16.2 | 3-5 | 700-800 | 22 |
Ø 2.4×14 | 63.3 | 13.5-16.9 | 3-5 | 700-800 | 37 |
Ø 2.4×18 | 81.4 | 17.4-21.7 | 3-5 | 700-800 | 37 |
Ø 2.4×20 | 90.4 | 19.3-24.1 | 3-5 | 700-800 | 45 |
Ø 2.4×22 | 99.5 | 21.2-26.5 | 3-5 | 700-800 | 45 |
Ø 2.6×24 | 127.4 | 27.2-34 | 3-5 | 700-800 | 55 |
Ø 3×20 | 141.3 | 30.1-37.7 | 3-5 | 700-800 | 75 |
Ø 3×25 | 176.6 | 37.7-47.1 | 3-5 | 700-800 | 75 |
Ø 3.2×25 | 201 | 42.9-53.6 | 3-5 | 700-800 | 90 |
Ø 3.6×28 | 285 | 60.8-76 | 3-5 | 700-800 | 160 |
Spec./m | Capacity(t/h) | Highest Inlet Air Temperature(℃) |
Ø 1.2×8 | 1.9-2.4 | 700-800 |
Ø1.2 ×10 | 2.4-3 | 700-800 |
Ø 1.5×12 | 4.5-5.7 | 700-800 |
Ø 1.5×14 | 5.3-6.6 | 700-800 |
Ø1.5×15 | 5.7-7.1 | 700-800 |
Ø 1.8×12 | 6.5-8.1 | 700-800 |
Ø 1.8×14 | 7.6-9.5 | 700-800 |
Ø 2.2×12 | 9.7-12.2 | 700-800 |
Ø 2.2×14 | 11.4-14.2 | 700-800 |
Ø 2.2×16 | 13-16.2 | 700-800 |
Ø 2.4×14 | 13.5-16.9 | 700-800 |
Ø 2.4×18 | 17.4-21.7 | 700-800 |
Ø 2.4×20 | 19.3-24.1 | 700-800 |
Ø 2.4×22 | 21.2-26.5 | 700-800 |
Ø 2.6×24 | 27.2-34 | 700-800 |
Ø 3×20 | 30.1-37.7 | 700-800 |
Ø 3×25 | 37.7-47.1 | 700-800 |
Ø 3.2×25 | 42.9-53.6 | 700-800 |
Ø 3.6×28 | 60.8-76 | 700-800 |
Shell diameter × shell Length | Inside diameter of outer shell (mm) |
Inside diameter of inner shell (mm) |
Shell Length (m) |
Shell cubage (m³) |
Shell obliquity | Lifting blade form | Highest inlet air temperature (℃) |
Dimensions (m) |
Φ1.5×15m | 1500 | 500 | 15 | 20.27 | 3-5% | Lifting form | 850 | 16.2×2.7×2.7 |
Φ1.5×17m | 17 | 22.97 | 18.2×2.7×2.7 | |||||
Φ1.5×19m | 19 | 25.68 | 20.0×2.9×2.9 | |||||
Φ1.8×21m | 1800 | 650 | 21 | 35.91 | 3-5% | Lifting form | 850 | 22.5×2.7×2.7 |
Φ1.8×23m | 23 | 39.33 | 24.5×2.9×2.9 | |||||
Φ1.8×25m | 25 | 42.75 | 26.5×2.9×2.9 | |||||
Φ2.2×21m | 2200 | 800 | 21 | 58.10 | 3-5% | Lifting form | 850 | ---- |
Φ2.2×23m | 23 | 63.61 | ||||||
Φ2.2×25m | 25 | 69.15 |
Shell diameter × shell Length | Inside diameter of outer shell (mm) |
Inside diameter of inner shell (mm) |
Shell cubage (m³) |
Φ1.5×15m | 1500 | 500 | 20.27 |
Φ1.5×17m | 22.97 | ||
Φ1.5×19m | 25.68 | ||
Φ1.8×21m | 1800 | 650 | 35.91 |
Φ1.8×23m | 39.33 | ||
Φ1.8×25m | 42.75 | ||
Φ2.2×21m | 2200 | 800 | 58.10 |
Φ2.2×23m | 63.61 | ||
Φ2.2×25m | 69.15 |