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Heavy duty slurry pumps type Ensival Moret EMWThe EMW pump range has been designed considering historic field experience, coupled with the latest in fluid flow modeling technologies and finite element analysis, to create the latest in slurry pumping technology.
Case study
When faced with challenging process conditions
The challenge
The gypsum produced by the reaction between phosphate rock and sulfuric acid must be separated and removed from the mainstream phosphoric acid production process. The gypsum cake is collected from the filter, slurrified and then pumped to stacks. Over a period of time, the height of the stacks increases, and more energy is required to continue discharging the slurry. In this case, additional booster
pumps were needed.
The constraints of the application were:
- Corrosive liquid with presence of contaminants
- Medium solids content slurry
- High flow
- Very high head
- Very erosive application
The solution
After having analyzed the slurry properties and operating conditions, we opted for a heavy-duty slurry pump type EMW in metal alloy construction. Even if the pumped mixture itself is not among the most severe ones, the required flow and head make the application tough.
The main characteristics of our solution are:
- Heavy-duty slurry pump type EMW350MS
- Full-diameter closed impeller and low rotating speed
- Wear-resistant material (FC1) with corrosion-resistant properties
A heavy-duty slurry design is primarily intended to withstand erosion and offer the most durable performance despite inevitable wear. The wear can be mitigated by an appropriate combination of hydraulics and materials. In practice, this means a lower rotating speed, correct position of the nominal flow with regard to the best efficiency point (BEP), and selection of a wear-resistant material within the range of high chromium iron.
Alaa Abuissa - Area Sales Manager, Sulzer
The project was identified as highly critical. Therefore, we started a technical exchange with the customer to identify the key parameters and operating conditions. Also some field tests were made to define the best technical proposal. The schedule for the manufacture of six (6) EMW350M slurry pumps was very tight. We delivered the pumps on time early 2021 and our customer is very satisfied with their performance.
Customer benefit
For a customer, transparent exchange of technical information with the supplier is highly beneficial, especially when the supplier can offer a broad range of materials of construction and various pump designs for different types of applications.
In this case, Sulzer considered the composition of the slurry (i.e. chemical and physical properties) and the operating conditions. We estimated that the first factor to be considered was the erosive character of the application. We did not want to select a material that has a very good resistance to corrosion, but that would not last long because of a weaker resistance to erosion. However, some contaminants possibly made the liquid aggressive. Because of this, we proposed corrosion testing at the site to confirm the suitability of the pre-selected materials. Having analyzed the results, we were able to select the optimal equipment.
Item | Description |
Application | Gypsum slurry booster pumps |
Fluid | Acidic water containing < 22% w/w of gypsum (estimated size < 500 μm), pH < 1, high chloride content possible, fluorine |
Temperature | < 40 (°C) |
SG | < 1’100 (kg/m³) |
Flow / head | < 3’000 (m³/h) / < 65 (m) |
Pump type | EMW350MS |
Serial number | 100238857 (660880) |
Material of construction | FC1 |
Nominal speed | < 750 (RPM) |
Lubrication | Grease |
Installation | Pump/motor on common baseplate |
Motor | HYOSUNG 750 (kW) – 4’000 V – 60 Hz VFD-driven |
Transmission | Flexible coupling (Metastream TSKS) |
Sealing system | Dual mechanical seal (John Crane SB2S-PR) Flushing plan similar to API 53A |