Slurry Pump, Mud Pump,Centrifugal Pump
Specifications
Elastomer-lined;Durable;Efficient Slurry Pump/Mud dredge Pump
Capacity:25000T/day;
Head:7-70m
1.Uses and Features:
.
The M.AH type slurry pumps have pump bodies (volute liners, front and back liners) that consist of replaceable wear-resistant metal liners or wear-resistant rubber liners, and impellers can also apply wear-resistant metal material or wear-resistant rubber material.The HH type slurry pumps only apply wear-resistant metal material as their pump bodies and impellers.
2.Designation:
10/8(200)NZJ-ST (TU, C, D, E, S, R)-AH (AHR, M, HH)
10---- diameter of pump suction inlet (inch)
8---- diameter of pump discharge outlet (inch)
(200)---- metric system 200mm
NZJ----Naipu Group, initial letters for slurry pump
ST (TU, C, D, E, S, R)---- mode of base
AH (M, HH) ----slurry pump
AHR---- wear-resistant rubber wet parts applied
3.Structural Image:
NZJ-Series slurry pumps are suitable for severe slurry conditions with coarse particles and high competency.
3.1 There are two types of material for wet parts (volute liners, front and back liners, impellers):
L Made of high-chrome alloy material;
L Made of highly wear-resistant rubber material researched and developed by Naipu company.
Both of them can fulfill the task of slurry pumping with high efficiency and long service life.
3.2 Structure of shaft seals:
L Packing gland seals;
L Pressure-reducing metal gland seals;
L Pressure-reducing rubber gland seals;
L Mechanical seals.
NZJ Series slurry pumps have two kinds of structural modes, which are the high-chrome alloy one and the rubber wear-resistance one.The wet parts made of either alloy or rubber can be mixed up in operation.
For example:A rubber volute liner and liners can be combined with an alloy impeller in operation, and a rubber impeller can be used together wit an alloy volute liner and liners.
4.Introduction of Type Selection
When the type selection is conducted, the performance curve table for clear water of a pump shall be referred to, and the coefficient of range for the flow selected is as follows:
4.1 M, AH type pumps
4.1.1 For slurry of high density and strong abrasiveness, the coefficient of flow range will be 40-80%;
4.1.2 For slurry of medium density and medium abrasiveness, the coefficient of flow range will be 40-100%;
4.1.3 For slurry of low density and low abrasiveness, the coefficient of flow range will be 40-120%.
4.2 HH type pumps
4.2.1 For slurry of medium density and strong abrasiveness, the coefficient of flow range will be 40-80%;
4.2.2 For slurry of low density and strong abrasiveness, the coefficient of flow range will be 40-100%;
4.2.3 For the highest efficiency point under a certain RPM condition, its corresponding flow rate will be 100%.
selection Chart and Performance |
model |
max power(KW) |
capacity(m3/H) |
head(M) |
speed |
40/25B-AH |
15 |
12.6-28.8 |
6-68 |
1200-3800 |
40/25C-HH |
30 |
16.2-34.2 |
25-92 |
1400-2200 |
50/40B-AH |
15 |
34.2-72 |
6-58 |
1200-3200 |
75/50C-AH |
30 |
39.6-86.4 |
12-64 |
1300-2700 |
75/50D-HH |
60 |
68.4-136.8 |
25-87 |
850-1400 |
100/75C-AH |
30 |
86.4-198 |
9-52 |
1000-2200 |
100/75E-HH |
120 |
126-252 |
12-97 |
600-1400 |
150/100D-AH |
60 |
162-360 |
12-56 |
800-1550 |
150/100S-HH |
560 |
324-720 |
30-118 |
600-1000 |
150S-HH |
560 |
468-1008 |
20-94 |
500-1000 |
200/150R-AH |
300 |
360-828 |
10-61 |
500-1140 |
250/200E-M |
120 |
666-1440 |
14-60 |
600-1100 |
250/200ST-AH |
560 |
612-1368 |
11-61 |
400-850 |
300/250ST-AH |
560 |
8936-1980 |
7-68 |
300-800 |
350/300ST-AH |
560 |
1260-2772 |
13-63 |
300-600 |
400/350TU-AH |
1200 |
1368-3060 |
11-63 |
250-550 |
500/450TU-AH |
1200 |
2520-5400 |
13-57 |
200-400 |