What is a Slurry Dryer ?

A slurry dryer is industrial equipment specifically designed to remove liquid (usually water) from a pumpable mixture of fine solid particles suspended in that liquid. It transforms the wet slurry into a dried solid product like powder, granules, or cake.

Slurries come in many forms across industries – mineral concentrates, coal fines, tailings, clays, chemical precipitates, wastewater sludge. Drying them is often essential for further use or disposal. As ZONEDING, we build dryers to handle these challenging materials.

Why Dry My Slurry (e.g., Coal Slime, Concentrate, Tailings, Kaolin, Sludge)?

Slurry drying is vital to reduce transport costs, meet downstream process requirements, improve handling and storage, recover valuable solids, meet product specifications, or enable safe disposal.

There are compelling reasons across various industries to remove water from slurries:

• Reduced Transportation & Handling Costs: Water is heavy and takes up volume. Drying significantly cuts shipping expenses and makes the material easier to convey and store without issues like freezing or settling.
• Meeting Downstream Process Needs: Many processes require materials with low moisture content (e.g., feeding a kiln, briquetting coal fines, further chemical processing). Wet slurry is often unsuitable.
• Product Quality & Specification: For products like kaolin clay or mineral concentrates, a specific low moisture content is often required for sale or final use.
• Resource Recovery: Drying allows for the recovery and concentration of valuable solid materials from waste streams like tailings or sludge.
• Volume Reduction & Disposal: For waste materials like sludge or tailings, drying significantly reduces the volume needing disposal, lowering landfill costs and environmental impact.
• Improved Stability: Dry solids are generally more stable chemically and physically during storage compared to wet slurries.

At ZONEDING, we understand these drivers and help industries select the right drying solution for their specific slurry and objectives.

Working principle of slurry dryer

A rotary slurry (sludge) dryer tumbles the sludge inside a gently inclined, rotating drum while hot gas flows through. Internal lifters continuously lift and shower the sludge through the hot gas stream, promoting heat transfer and water evaporation. Special designs combat stickiness.

Rotary dryers are a common choice for municipal and industrial sludges due to their robustness and capacity. The process involves several key actions:

Key Steps in Rotary Drying

1. Feeding: Dewatered or thickened sludge enters the higher end of the inclined drum. Consistent feed is important.
2. Rotation & Transport: The drum rotates slowly, causing the sludge to tumble and gradually move towards the lower discharge end due to the inclination.
3. Lifting & Showering: Internal plates called lifters are fitted along the drum’s length. They pick up the sludge and allow it to cascade through the drum’s cross-section.
4. Heat Transfer: Hot gas (from a burner or waste heat source) flows through the drum, either in the same direction as the sludge (co-current) or the opposite direction (counter-current). The showering action maximizes contact between the hot gas and the sludge particles, efficiently transferring heat for evaporation.
5. Discharge: Dried sludge exits the lower end.

What Auxiliary Equipment is Usually Needed for a Complete Slurry Drying System (Feed Pump, Mixer, Heat Source, Dust Collector, etc.)?

A slurry dryer doesn’t operate in isolation. It needs supporting equipment to feed it, heat it, handle the exhaust, and control the process. Understanding the full system is vital.

A complete system typically requires: a slurry feed pump (appropriate type for slurry ), possibly a feed tank/mixer , the heat source (burner/steam), the dryer itself, ducting, dust collector, exhaust fan, product discharge system, and controls.

A functional slurry drying plant involves several critical pieces of auxiliary equipment working together:

Components of a Full Slurry Drying System:

1. Feed Preparation & Delivery:
   • Slurry Holding Tank: Stores slurry before drying, potentially with agitation to maintain suspension.
   • Feed Pump: Must be suitable for the slurry’s viscosity, solids content, and potential abrasiveness/corrosiveness. Types include progressive cavity, peristaltic, diaphragm, or centrifugal pumps. Consistent, non-pulsating flow is ideal .
   • Mixer/Buffer Tank (Optional but Recommended ): Helps homogenize feed and dampen pulsations from the pump, ensuring stable feed to the dryer.
   • Piping & Valves: To transport slurry to the dryer inlet.
2. Heat Source:
   • Burner System (Natural gas, oil, LPG) with combustion air fan and fuel train.
   • Steam Generator / Boiler & Steam Control System (for indirect heat or steam injection).
   • Waste Heat Source Integration (Ducting, dampers, potentially heat exchangers).
3. Dryer Unit: The core drying vessel (Spray chamber, Paddle trough, Flash duct, Rotary drum) with its drive system.
4. Exhaust Gas Handling:
   • Ductwork: Connecting dryer outlet to dust collector and stack. Material choice depends on temperature and corrosion.
   • Dust Collection System : Cyclone, Baghouse, Wet Scrubber, or combination. Includes dust discharge devices (rotary valves, screw conveyors).
   • Exhaust Fan (ID Fan): Provides motive force for gas flow through the system. Often equipped with VSD for control.
   • Stack: For final discharge.
5. Dried Product Handling:
   • Discharge Device: Rotary valve, screw conveyor, or simple chute from the dryer/dust collector.
   • Cooling System (Optional): If product exits hot (e.g., rotary dryer) and needs cooling before storage (e.g., cooling screw, pneumatic cooling).
   • Conveying System: Pneumatic or mechanical conveying to storage silos or packaging.
6. Control System: PLC-based automation system with sensors (temperature, pressure, flow, moisture), actuators (valves, dampers, VSDs), safety interlocks, and operator interface (HMI).

ZONEDING provides complete, engineered slurry drying systems, ensuring all necessary auxiliary components are correctly selected, sized, and integrated for reliable and efficient operation.

General Specification

Customer Cases