The evaporative circulating pump of Model-FJX series is an axial pump with large capacity and low delivery head, which is specially used for the forced circulation of evaporators of industries such as Timonium phosphate, phosphoric acid, salt making of vacuum method, aluminum oxide, caustic soda, and light industries, as well as the circulating pump of crystallizers and reactors. ENINE axial pump Technical parameters: Range of flow rate:300~12000M
3/h
Range of delivery head:
2-4m,Working pressure:1MPa,Working temperature: 170℃.Annotate: the user should provide detailed data when ordering, and according to use's requirements of capacity, delivery head, and medium properties, etc.
Product
models |
The installation
angle of the blade |
Capacity
M3/h |
Delivery
Head
M |
Rotation
speed
r/min |
Efficiency
% |
Shaft power
N |
Matched Motor
kw |
| FJX-250 |
|
300 |
2.5 |
980 |
60 |
3.4 |
|
| FJX-300 |
|
520 |
3 |
980 |
62 |
6.8 |
| FJX-350 |
|
1350 |
4 |
980 |
65 |
29.6 |
| FJX-450 |
|
2200 |
4 |
980 |
68 |
35.2 |
| FJX-500 |
|
2650 |
4 |
740 |
70 |
42 |
| FJX-550 |
|
4000 |
4 |
740 |
70 |
62.8 |
| FJX-700 |
-4 |
4772 |
3.3 |
370 |
75.6 |
56.7 |
|
| -2 |
5320 |
3.4 |
400 |
76.1 |
64.7 |
| 0 |
5700 |
3.5 |
430 |
76.9 |
70.7 |
| -2 |
6154 |
3.6 |
460 |
76.6 |
78.8 |
| -4 |
6579 |
3.6 |
490 |
75.2 |
85.8 |
| FJX-800 |
-4 |
6142 |
3.8 |
500 |
75.4 |
84.3 |
|
| -2 |
6790 |
3.8 |
76.8 |
86.7 |
| 0 |
7400 |
3.7 |
77.2 |
96.6 |
| 2 |
7815 |
3.7 |
76.7 |
102.7 |
| 4 |
8417 |
3.8 |
75.5 |
115.4 |
| FJX-900 |
-4 |
7748 |
3.4 |
424 |
76.1 |
94.3 |
|
| -2 |
8407 |
3.4 |
77.4 |
100.3 |
| 0 |
9000 |
3.5 |
78 |
110 |
| 2 |
9656 |
3.5 |
77.3 |
119.1 |
| 4 |
10280 |
3.6 |
77.4 |
130.2 |
| FJX-1000 |
-4 |
9210 |
3.4 |
380 |
76.3 |
111.8 |
|
| -2 |
1078 |
3.5 |
77.5 |
132.6 |
| 0 |
11000 |
3.5 |
78 |
134.4 |
| 2 |
11970 |
3.6 |
77.3 |
151.1 |
| 4 |
12700 |
3.6 |
76.5 |
162.8 |
Note: If the performance data of the pump is not listed in the table, it could be changed through changing the rotation speed. The performance after changing of rotation speed is calculated as the following equation Flow rate Q/Q=(n/n),Delivery head H/H=(n/n)2,Power of the shaft P/P=(n/n)3 The power and turning speed of matched motor should be decided according to the capacity, delivery head, specific gravity of the medium, linear velocity of the impeller required by the user. The power of the shaft could be corrected by multiplying the power of shaft for clean water and the specific gravity and correction factor of suspension liquid.
