Chemical Industrial Decanter Centrifuge for Process Slurry
Chemical Industry Industrial Decanter Centrifuge is designed for continuous solid-liquid separation in chemical production, fine chemical processing, corrosive sludge treatment, and process slurry handling.
Unlike a general chemical sludge dewatering centrifuge, this product is not limited to wastewater sludge volume reduction. It is also suitable for process slurry separation, crystallization mother liquor separation, chemical precipitate recovery, and continuous solid-liquid separation in chemical production lines.
Compared with a standard industrial decanter centrifuge, this model focuses on chemical compatibility, corrosion-resistant material selection, stable separation of complex chemical slurry, sealing reliability, and integration with chemical process systems.
- Fine chemical process slurry separation
- Chemical precipitation solids separation
- Crystallization mother liquor solid-liquid separation
- Dye and pigment process slurry separation
- Pesticide intermediate slurry separation
- Inorganic chemical slurry dewatering
- Reaction residue solid-liquid separation
- Chemical process wastewater pretreatment
- Product washing slurry separation
- Process liquid clarification before filtration
- Solid recovery from chemical slurry
- Residue reduction before drying or disposal
Chemical process slurry is often more complex than ordinary wastewater sludge.
It may contain:
- Fine precipitated particles
- Crystals or inorganic solids
- Pigment or dye particles
- Sticky chemical flocs
- Reaction residues
- Mother liquor with suspended solids
- Product washing slurry
- Process solids with different particle sizes
- Fluctuating feed concentration
- Different downstream process requirements
If the centrifuge is selected only by flow rate, the customer may face:
- Poor liquid clarification
- Unstable cake discharge
- High load on downstream filtration
- Unstable mother liquor quality
- Excessive moisture in process residue
- Inconsistent separation result
- Higher drying, filtration, or disposal burden
For chemical process applications, the centrifuge should be selected according to the process purpose, not only according to sludge volume.
| Configuration Item | Purpose |
|---|---|
| Two-phase decanter centrifuge | Separates chemical solids from process liquid continuously |
| Bowl speed selection | Matches particle size, density difference, and liquid clarity target |
| Differential speed control | Balances cake dryness, solids discharge, and liquid clarity |
| Screw conveyor design | Supports stable discharge of crystals, precipitates, or process residues |
| Feed control | Helps maintain stable separation under changing feed concentration |
| Liquid outlet adjustment | Supports different clarified liquid requirements |
| Solids discharge system | Transfers separated solids to drying, disposal, recovery, or further processing |
| Dosing interface | Optional for precipitation sludge, fine particles, or flocculated slurry |
| Washing / dilution interface | Optional when process solids need conditioning before separation |
| Control system | PLC / VFD control, torque monitoring, vibration alarm, operation monitoring |
| Material compatibility check | Confirmed when process liquid contains corrosive or solvent components |
| Skid-mounted option | Feed pump, dosing unit, tanks, pipelines, and control cabinet can be integrated |
| Skid-mounted option | Feed pump, dosing unit, control cabinet, tanks, pipelines, and valves can be integrated |
- Chemical sludge or process slurry enters the rotating bowl through the feed pipe.
- Under centrifugal force, heavier chemical solids, precipitates, crystals, or flocculated particles move outward and form a sediment layer on the inner wall of the bowl.
- The clarified liquid phase stays closer to the center and is discharged continuously through the liquid outlet.
- At the same time, the screw conveyor rotates at a controlled differential speed and pushes the separated solids toward the discharge end.
| Model | Diameter (mm) | Length (mm) | Length-to-diameter rate | G force | Max solid discharge (m³/h) | Weight (kg) | Dimension (L*W*H) (mm) |
|---|---|---|---|---|---|---|---|
| PDC-10 | 250 | 1000 | 4 | 4080 | 0.4 | 1000 | 2410*800*1080 |
| PDC-12 | 4200 | 1350 | 4 | 3500 | 0.6 | 1200 | 2610*800*1080 |
| PDC-12 | 4200 | 1350 | 4.5 | 3180 | 1.2 | 1800 | 3495*840*1180 |
| PDC-18 | 4000 | 1600 | 4.5 | 3180 | 1.2 | 3200 | 3497*1020*1385 |
| PDC-18 | 450 | 2150 | 4 | 2500 | 2 | 3800 | 4447*1080*1385 |
| PDC-20 | 400 | 2250 | 4.5 | 2500 | 3.5 | 4000 | 4580*1140*1470 |
| PDC-21 | 530 | 2280 | 4.3 | 2500 | 5 | 5000 | 4924*1170*1540 |
| PDC-26 | 655 | 2800 | 4.3 | 2270 | 8 | 7000 | 4300*1900*1350 |
Designed for chemical process slurry, crystallization mother liquor, reaction residue, and chemical precipitate separation.
The machine supports continuous separation of crystals, precipitates, fine particles, flocs, and process solids.
By removing suspended solids before filtration or polishing treatment, the centrifuge can reduce the load on downstream equipment.
For crystallization or process slurry systems, the decanter helps separate solids from mother liquor and improve downstream handling stability.
Bowl speed, differential speed, feed rate, and dosing conditions can be adjusted according to liquid clarity, cake dryness, or solid recovery target.
The centrifuge helps reduce liquid content in chemical residues, lowering drying, transport, disposal, or recovery load.
It can be connected with reactors, crystallizers, thickening tanks, filtration units, drying systems, wastewater pretreatment units, or skid-mounted separation systems.
With suitable feed control, process conditioning, and correct parameter settings, this chemical industrial decanter centrifuge can typically help achieve:
- 75–95% solid capture rate, depending on particle size and flocculation effect
- 60–90% suspended solids reduction, depending on separation target
- 20–40% cake solids content, depending on slurry type and cake behavior
- 30–60% process residue volume reduction
- Lower load on downstream filtration, drying, or disposal systems
- More stable mother liquor and solid separation
- Improved liquid clarification before downstream treatment
- More manageable separated solids for recovery, drying, or disposal
- Better process continuity in chemical production lines
Actual results depend on particle size, solids content, viscosity, slurry chemistry, flocculation effect, feed stability, differential speed, and downstream process requirements.
If the separation target is strict or the feed composition changes frequently, pilot testing or material testing is recommended.
To recommend a suitable chemical industrial decanter centrifuge, please provide:
- Feed material name
- Chemical process or application background
- Capacity requirement, in m³/h or tons/day
- Feed solids content
- Particle size distribution
- Particle type: crystal, precipitate, floc, pigment, inorganic solid, or mixed residue
- Liquid density and viscosity
- Whether the goal is liquid clarification, solid recovery, mother liquor separation, or residue reduction
- Target cake moisture
- Target liquid clarity
- Current downstream process after separation
- Whether polymer, coagulant, washing, dilution, or conditioning is used
- Whether the separated solids need drying, disposal, recovery, or further treatment
- Whether the clarified liquid returns to process, filtration, wastewater treatment, or reuse
- Operating hours per day
- Feed fluctuation range
- Material compatibility requirement, if any
- Solvent, odor, or safety requirement, if any
- Site voltage and control preference
- Need for skid-mounted system or not
For this page, the most important data is separation purpose, particle characteristics, liquid clarity target, cake handling method, and downstream process requirement.
No. This page is not limited to wastewater sludge dewatering. It can also be used for chemical process slurry, crystallization mother liquor, reaction residue, product washing slurry, and solid-liquid separation in chemical production.
A corrosion-resistant decanter focuses on material selection and contact-part protection under acidic, alkaline, or corrosive media. This chemical industrial decanter focuses on process slurry separation, mother liquor handling, precipitate separation, and integration with chemical production steps.
Yes. It can separate crystals or suspended solids from mother liquor. Before selection, particle size, crystal behavior, viscosity, target liquid clarity, and downstream process should be confirmed.
It depends on the material. Fine precipitates or weak-settling flocs may require polymer or coagulant dosing, while crystal slurry or some process solids may not need it.
Yes. By removing part of the suspended solids before filtration, the decanter can reduce the load on downstream filters, dryers, or polishing systems. The final result depends on target clarity and particle size.
If you have local customer channels or project resources involving chemical plants, fine chemical production, pigment and dye slurry, pesticide intermediate slurry, crystallization mother liquor, reaction residue, or process slurry separation, Peony welcomes cooperation.
Peony can support local agents, distributors, and project partners with technical model selection, chemical process separation proposal, equipment configuration, process matching, skid-mounted system integration, equipment manufacturing, installation guidance, commissioning support, spare parts, and after-sales service.
Please send us your target market, customer type, project background, and cooperation proposal. Our team will evaluate the opportunity and provide technical and commercial support for suitable chemical process separation projects.
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