100d-L Light Abrasive Slurry Pump for Mining Processing
The type L (low to medium duty) pumps was designed specifically for continuous use in slurry type applications where a large flow at a low to medium developed head is required. The Type L pump with its encapsulated design is similar in design to the AH pump, but with a significantly reduced physical size when compared to the AH pump range.
The pump is available with interchangeable liner options including both metal and various grades of elastomer depending on the application.
Design and Unique Features
1. The heavy duty encapsulated design, with both metal and elastomer wet-
end components, is ideally suited for aggressive slurry applications in the horizontal arrangement.
2. With the large eye to impeller diameter ratio the pump is capable of moving large volumes while producing a low to medium developed head. This ensures that the pump can be operated in the most efficient region in low head applications.
3. The first metricated design range, the Type L has a pump designation based on the discharge diameter in millimetres.
4. The large volume casing design reduces velocities which further reduce wear in the pump.
5. Robust heavy duty bearing assemblies consisting of heavy duty taper rollers, minimum shaft overhang and rigid large diameter shafts, all contributes to trouble free operation.
6. A unique "-10" (dash 10) end cover assembly comprising V-Seals, double piston rings and an external flinger with grease lubricated labyrinths is standard with all Slurry Pumps.
7. The cartridge type bearing assembly can easily be removed for maintenance.
8. Available with centrifugal, stuffing box or mechanical seal arrangement.
Type |
Max. Power Kw |
Clear Water Performance |
Impeller |
Application  |
|||||
|
Capacity m³/hr |
Head/m |
Speed/rpm |
Efficiency % |
NPSH m |
Nos of Vane |
Diameter mm |
|||
20A-L |
7.5 |
2.34-10.8 |
6-37 |
1400-3000 |
30 |
3.5-8 |
4 |
152.4 |
-Ball mill discharge |
50B-L |
15 |
16.2-76 |
9-44 |
1400-2800 |
55 |
3.5-8 |
5 |
190 |
-Coarse tailings |
75C-L |
30 |
18-151 |
4-45 |
900-2400 |
57 |
3-6 |
4 |
229 |
-Rod mill discharge |
100D-L |
60 |
50-252 |
7-46 |
800-1800 |
60 |
2-3.5 |
4 |
305 |
-Coal washing |
150E-L |
120 |
115-486 |
12-51.5 |
800-1500 |
65 |
2-6 |
4 |
381 |
-Wet crushers |
200E-L |
120 |
234-910 |
9.5-40 |
600-1100 |
64 |
3-6 |
4 |
457 |
-Phosphate matrix |
250F-L |
120 |
396-1425 |
8-30 |
500-800 |
77 |
2-10 |
5 |
550 |
-Minerals concentrate |
300S-L |
560 |
468-2538 |
8-60 |
400-950 |
79 |
2-10 |
5 |
653 |
-Lime grinding |
350S-L |
560 |
650-2800 |
10-59 |
400-840 |
81 |
3-10 |
5 |
736 |
-FGD waste water |
400ST-L |
560 |
720-3312 |
7-51 |
300-700 |
80 |
2-10 |
5 |
825 |
-Flotation |
450ST-L |
560 |
1008-4356 |
9-48 |
300-600 |
80 |
2-9 |
5 |
933 |
-Process chemical |
550TU-L |
1200 |
1980-7900 |
10-50 |
250-475 |
86 |
4-10 |
5 |
1213 |
-Pulp and paper |
20A-LR |
7.5 |
2.16-9 |
7-32 |
1600-3000 |
30 |
 |
3 |
152.4 |
-Ni acid slurry |
50B-LR |
15 |
12.6-60 |
6-38 |
1200-2600 |
48 |
 |
3 |
190 |
-Coarse sand |
75C-LR |
30 |
22-144 |
9-43 |
1000-2200 |
60 |
3-5 |
4 |
229 |
-Heavy media |
100D-LR |
60 |
61-252 |
17-70 |
800-1600 |
65 |
2-5 |
6 |
305 |
-Bottom/fly ash |
150E-LR |
120 |
137-486 |
12-51.5 |
800-1300 |
65 |
2.5-5.5 |
5 |
381 |
-Oil sands |
200E-LR |
120 |
216-990 |
9.5-40 |
500-1100 |
74 |
 |
5 |
457 |
-Mineral sands |
250F-LR |
260 |
324-1314 |
8-30 |
500-800 |
70 |
5--10 |
5 |
550 |
-Fine tailings |
300S-LR |
560 |
432-1900 |
7-41 |
400-800 |
81 |
3-8 |
5 |
653 |
-Phosphoric acid |
350S-LR |
560 |
720-2844 |
10-41 |
400-700 |
86 |
3-7 |
5 |
736 |
-Coal |
400ST-LR |
560 |
756-3312 |
7-37.5 |
300-600 |
85 |
2-8 |
5 |
825 |
 |
450ST-LR |
560 |
1080-4356 |
9-40 |
300-550 |
87 |
3-10 |
5 |
933 |
 |
650U-LR |
2000 |
2520-9108 |
10-39 |
200-350 |
86 |
2-8 |
5 |
1370 |
 |
750UV-LR |
2000 |
3240-13860 |
8-41 |
150-300 |
86 |
2-8 |
5 |
1643 |
 |
100D-L Slurry Pump spares part code no.: 64122S10, DL10060, DL10132, 64124, D10124, D004MG01, DSC073ME05, BSC005M, DSC028, DSC029, 64041A05, DL10032D21, DL10110A05, 64056A05, DL10013D21...
Please contact Katherine Hou: +8615028111051
Â
Finned tube heat exchanger is one of the earliest and most successful discoveries in the process of improving tube heat exchanger. Up to now, this method is still the most widely used one among all kinds of heat transfer enhancement methods for tubular heat exchange surfaces. It is not only suitable for single-phase liquid flow, but also has great value for phase change heat transfer. However, before the 1960s, ordinary finned tube heat exchangers mostly used flat fins without any treatment on the surface structure. This type of fin has no other function of enhancing heat transfer except increasing the heat transfer area to achieve the effect of enhancing heat transfer. With the development of air cooling technology and the increasing trend of using gas medium in heat exchanger, finned tube heat exchanger has been paid more and more attention. Especially since the Sergles report on enhanced heat transfer was published at the Sixth International Conference on Heat Transfer, a large number of highly efficient fin surface structures have been developed continuously. At present, most of the finned tube heat exchangers used for live and clean gas use a new and efficient fin surface structure, which has achieved significant enhanced transfer effect.
Industrial heat exchanger,Environmental protection industrial heat exchanger,Environmental heat exchanger
Wuxi Mcway Equipment Technology Co., LTD , https://www.mcwayfinnedtube.com