solid bowl centrifuges
,horizontal decanter centrifuge
The Scraper Bottom Discharge Centrifuge is designed for batch dewatering, cake washing, and automatic bottom discharge of salt crystals recovered from high-chloride brine, evaporator concentrate, and crystallization mother liquor.
It is suitable for sodium chloride, potassium chloride, chloride-rich mixed salts, and other filterable crystals produced in high-salinity process streams. The centrifuge separates chloride-containing mother liquor from the crystal cake, reduces retained liquid through centrifugal drying, and automatically discharges the recovered salt through the bottom outlet.
- Sodium chloride crystal recovery from concentrated brine
- High-chloride salt recovery from evaporator and crystallizer systems
- Potassium chloride crystal dewatering
- Chloride-rich mixed salt separation
- Chlor-alkali brine by-product salt recovery
- Salt recovery from high-salinity wastewater treatment systems
- Desalination brine concentration and salt recovery
- Petrochemical chloride salt by-product dewatering
- Brine purification and salt crystallization projects
- Salt cake washing before drying, screening, or packaging
- Recovery of reusable salt crystals from mother liquor recycle systems
Peony provides the solid-liquid separation section for high-chloride salt recovery after concentration, evaporation, and crystallization.
Evaporator / Crystallizer → Crystal Slurry Tank → Controlled Feeding → Scraper Bottom Discharge Centrifuge → Mother Liquor Recycle or Purge → Optional Cake Washing → Automatic Bottom Discharge → Dryer / Cooler / Screen / Storage
The configuration can include:
- Corrosion-resistant wetted material selection
- Crystal slurry buffer tank and agitator
- Stable and controlled slurry feeding system
- Filter basket and filter cloth selection according to crystal size
- Optional cake washing for reduced mother liquor carryover
- Filtrate collection and mother liquor recycle connection
- Automatic scraper discharge system
- PLC control with batch sequence and safety interlocks
- Connection to dryer, vibrating screen, cooling system, conveyor, silo, or packaging line
- Optional enclosed structure for corrosive or high-humidity operating environments
1. High-Chloride Crystal Slurry Feeding
Crystal slurry from the evaporator, crystallizer, or slurry tank is fed into the rotating basket through a controlled feed system.
Stable feeding is important to maintain even cake formation and avoid excessive crystal breakage.
2. Mother Liquor Filtration
Under centrifugal force, chloride-rich mother liquor passes through the filter medium and basket perforations.
The separated liquid is collected through the filtrate outlet and can be returned to the crystallization system, transferred to a mother liquor tank, or routed to a purge and recovery section.
3. Crystal Cake Formation
Salt crystals are retained inside the basket and gradually form a filter cake on the basket wall.
The cake permeability depends on crystal size, fines content, crystal shape, slurry solids concentration, and liquor viscosity.
4. Optional Cake Washing
A controlled wash liquid can be introduced to reduce chloride-rich mother liquor retained between crystals.
This step is useful when the recovered salt requires lower impurity carryover before drying, screening, storage, or further refining.
5. Centrifugal Spin Drying
After filtration and washing, the basket continues rotating to reduce free liquid remaining in the salt cake.
Lower retained mother liquor can reduce the drying load and improve downstream product handling.
6. Automatic Scraping and Bottom Discharge
At the end of the batch cycle, the scraper removes the dewatered salt cake from the basket wall.
Recovered salt crystals are discharged automatically through the bottom outlet and transferred to the next process stage.
| Model | Diameter | Volume | Capacity | Speed | G-force | Power | Weight | Dimension |
|---|---|---|---|---|---|---|---|---|
| PPSBD-140 | 800 mm | 100 L | 140 kg | 1500 rpm | 1008 | 11 kW | 3000 kg | 1800 × 1200 × 1670 mm |
| PPSBD-200 | 1000 mm | 150 L | 200 kg | 1200 rpm | 806 | 15 kW | 4000 kg | 2050 × 1500 × 2000 mm |
| PPSBD-200 | 1000 mm | 150 L | 200 kg | 1200 rpm | 567 | 15 kW | 4000 kg | 2050 × 1500 × 2000 mm |
| PPSBD-400 | 1250 mm | 280 L | 400 kg | 900 rpm | 567 | 18.5 kW | 5000 kg | 2350 × 1650 × 2450 mm |
| PPSBD-540 | 1250 mm | 400 L | 540 kg | 1000 rpm | 700 | 22 kW | 5000 kg | 2350 × 1650 × 2920 mm |
| PPSBD-540 | 1250 mm | 400 L | 540 kg | 1000 rpm | 700 | 22 kW | 5500 kg | 2400 × 1700 × 2920 mm |
| PPSBD-1200 | 1600 mm | 900 L | 1200 kg | 850 rpm | 647 | 37 kW | 8500 kg | 3000 × 2200 × 3300 mm |
Designed for High-Chloride Process Liquor
The centrifuge can be configured according to chloride concentration, operating temperature, pH, oxidizing conditions, and mother liquor chemistry.
Material selection is determined by actual process data rather than using a standard stainless-steel configuration by default.
Improved Salt Recovery from Mother Liquor
The filtration and spin-drying process separates recoverable crystals from high-chloride mother liquor, helping reduce salt loss to purge streams or wastewater treatment.
Lower Mother Liquor Carryover
Centrifugal dewatering reduces retained chloride-rich liquid in the cake before downstream drying, cooling, screening, or packaging.
Optional Cake Washing
An in-basket washing system can reduce mother liquor residues, soluble impurities, and unwanted salt carryover where product quality requires a cleaner crystal surface.
Automatic Bottom Discharge
The scraper discharge system removes the salt cake automatically, reducing manual handling and improving operating consistency in corrosive salt processing areas.
High-chloride salt systems should not be selected based only on salt product name. The actual corrosion risk can change significantly with chloride concentration, operating temperature, pH, dissolved oxygen, oxidizing components, acid cleaning chemicals, and stagnant liquor areas.
Peony can evaluate the required material configuration for:
- Basket and perforated screen
- Filter medium support structure
- Scraper blade and discharge components
- Filtrate chamber and filtrate piping
- Feed pipe and wash nozzles
- Fasteners and sealing components
- External protective coating where required
- Contact surfaces exposed to high-chloride mother liquor
SS316L may be suitable for selected conditions, but duplex stainless steel, super duplex stainless steel, titanium, nickel alloy, or other customized material configurations may be considered when the process environment requires higher corrosion resistance.
What Data Is Needed for Selection?
To recommend a suitable high-chloride salt crystal recovery centrifuge, please provide:
- Salt product and main crystal composition
- Mother liquor composition and laboratory analysis
- Chloride concentration
- Sulfate, calcium, magnesium, potassium, and other impurity concentrations
- pH and operating temperature
- Crystal size distribution and fines content
- Slurry solids concentration
- Required production capacity
- Required batch cycle time
- Target cake moisture
- Cake washing requirement and available wash liquid
- Mother liquor recycle, purge, or recovery arrangement
- Cleaning chemical and CIP information
- Required wetted material specification
- Downstream dryer, cooler, screen, conveyor, storage, or packaging arrangement
- Explosion-proof requirement, if applicable
Can the centrifuge recover sodium chloride crystals from high-chloride brine?
Yes. It can be configured for sodium chloride crystal recovery when the slurry contains filterable crystals capable of forming a stable cake. The final configuration should be based on chloride concentration, temperature, crystal size, solids concentration, and mother liquor chemistry.
Is SS316L suitable for high-chloride salt crystal recovery?
SS316L may be suitable for selected applications, but it should not be assumed to be sufficient for all high-chloride environments. Higher chloride concentration, elevated temperature, oxidizing conditions, acid cleaning, and stagnant liquor zones may require a higher-grade material configuration.
Can the separated mother liquor be recycled?
Yes. The filtrate can be returned to an evaporator, crystallizer, mother liquor tank, brine concentration section, or controlled purge stream according to the salt recovery process.
Can salt crystals be washed inside the centrifuge?
Yes. An optional cake washing system can be installed to reduce residual mother liquor and soluble impurities on the recovered crystals. The wash liquid and washing sequence should be confirmed based on the product specification and salt solubility.
Can the centrifuge connect directly to a dryer?
Yes. The automatic bottom discharge can be connected with a dryer, fluidized bed cooler, vibrating screen, belt conveyor, screw conveyor, storage silo, or packaging system.
Peony welcomes distributor and agent cooperation with salt producers, chlor-alkali companies, evaporation and crystallization contractors, high-salinity wastewater treatment providers, desalination projects, chemical manufacturers, and industrial separation partners.
We support partners with centrifuge selection, high-chloride material configuration, filter medium matching, controlled feeding design, cake washing arrangement, mother liquor recycle connection, installation guidance, commissioning support, spare parts, and after-sales service.
Send us your salt product, mother liquor analysis, chloride concentration, operating temperature, crystal size, slurry solids concentration, required capacity, target moisture, and downstream handling arrangement. Our engineering team will recommend a suitable Scraper Bottom Discharge Centrifuge solution for your high-chloride salt crystal recovery project.
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