Air Swept Coal Powder Making Grinding Ball Mill
Air swept coal grindng ball mill is both grinding and drying ideal coal powder processing equipment, with the characteristics of high efficiency, energy saving, environmental protection.
Powder fineness is more than 85% through 200 mesh screen, and water less than2%, is an Ideal pulvercoal processing equipment for industrial kiln, which can be used not only for grinding but also for drying.
Wind Swept Coal Grinding Ball Mill Working principle :
Feeding equipment supplies raw coal into the slip. While material slipping, a hot wind with a temperature of about 300ºC also uses the inlet duct to enter the ball mill and dry the raw coal;
The raw coal enters the ball mill through the feeding helix. In the ball mill, a certain amount of grinding media is installed in the warehouse. Due to the cylinder rotation, the liner takes the grinding media to a certain height, then use the impact energy and friction when landing to break and grind the raw coal.
While the raw coal is broken and ground, the induced draft fan absorbs the ground fine powder together with the already used hot wind through the discharging device of ball mill. The mixture of fine powder and heat air passes through a specially set powder selection machine, it will select the unqualified coarse powder, Send it back to the mill for regrinding.
Wind Swept Coal Powder Grinding Ball Mill Features:
(1)High grinding efficiency and relatively low energy consumption;
(2)Less metal consumption per unit product;
(3)Continuous operation and large production capacity;
(4)Reliable performance and low maintenance costs
(5)Fine grinding degree and uniform granularity.
(6)Small vibration, low noise, good equipment sealing, no dust overflow, clean environment, to meet the environmental protection requirements.
(7)Simple structure, large drying ability;
Wind Swept Coal Powder Grinding Ball Mill T
echnical Parameters:
Specification
(Diameter*Length)
(m) |
Rotating speed
(r/min) |
Feed size
(mm) |
Capacity
(t/h) |
Load of grinding media (t) |
Main motor |
Main Reducer |
Weight
(t) |
| Model |
Power
(kw) |
Speed
(r.p.m) |
Model |
Speed ratio |
| Φ2.2×4.4 |
22.4 |
≤25 |
8-9 |
18 |
YRKK4501-6 |
250 |
986 |
ZD60-11 |
6.3 |
36.7 |
| Φ2.2×5.8 |
22.4 |
≤25 |
5.5-7 |
23.5-25 |
Y4005-8 |
280 |
750 |
ZD70-10 |
5.6 |
45 |
| Φ2.4×4.75 |
21.2 |
≤25 |
9-11 |
22-24 |
YR4501-8 |
315 |
740 |
ZD60-8 |
4.5 |
49 |
| Φ2.4×(6+1.5) |
20.2 |
≤25 |
14-16 |
31 |
JR158-8 |
380 |
740 |
ZD70 |
5 |
77.3 |
| Φ2.4×(4.5+2) |
20.2 |
≤25 |
11-13 |
20.8 |
YRKK500-8 |
280 |
740 |
JDX45 |
4.5 |
68 |
| Φ2.5×3.9 |
21 |
≤25 |
14 |
21 |
JR138-8 |
280 |
740 |
ZD70-9 |
5 |
49.5 |
| Φ2.6×(5.25+2.25) |
19.7 |
≤25 |
12-14 |
28 |
YRKK500-8 |
400 |
740 |
ZDY450 |
4.5 |
87.4 |
| Φ2.8×(5+3) |
18.7 |
≤25 |
16-18 |
32 |
Y5001-8 |
500 |
740 |
JDX560 |
4.5 |
102 |
| Φ2.9×4.7 |
19.1 |
≤25 |
14-19 |
34.4 |
YR560-8 |
500 |
743 |
MBY560 |
4.5 |
79 |
| Φ3×(6.5+2.5) |
18.3 |
≤25 |
17-19 |
43 |
YRKK560-8 |
630 |
740 |
MBY560 |
5.6 |
120 |
| Φ3.2×(6.2+2) |
16.9 |
≤25 |
20 |
48 |
YRKK560-8 |
710 |
740 |
JDX630 |
5 |
118 |
| Φ3.2×(6.5+2.5) |
16.9 |
≤25 |
20 |
50 |
YRKK560-8 |
710 |
740 |
JDX630 |
5 |
140 |
| Φ3.4×(6+3) |
17.47 |
≤25 |
20-24 |
54 |
YRKK630-6 |
700 |
988 |
MBY710 |
5 |
135 |
| Φ3.5×7 |
17 |
≤25 |
22-25 |
70 |
YRKK630-6 |
100 |
970 |
JH630 |
7.1 |
170 |
| Φ3.5×(6.5+3.5) |
16.8 |
≤25 |
30 |
62 |
YRKK710-8 |
1250 |
740 |
JDX900 |
9 |
182 |
| Φ3.6×(6+3) |
17 |
≤25 |
30-32 |
62 |
YRKK710-8 |
1250 |
740 |
JDX900 |
6.3 |
185 |
| Φ3.8×(7.75+3.5) |
16.7 |
≤25 |
38-40 |
85 |
YRKK710-8 |
1400 |
740 |
JDX900 |
6.3 |
215 |
Audited Supplier 
){kind=link}