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Energy-Saving Solutions for Air Slide

Qu'est-ce qu'un convoyeur à toboggan pneumatique ?

Un air slide is a low-energy, maintenance-free system designed to transport powdered or granular materials (like cement, fly ash, or food ingredients) using controlled airflow. Unlike mechanical conveyors, it has no moving parts, relying instead on air fluidization to move materials smoothly along an inclined chute.

Key Industries Using Air Slides:

✔ Cement & construction
✔ Chemical processing
✔ Food & pharmaceuticals
✔ Power plants (fly ash handling)

How Does an Air Slide Work?

Les pneumatic conveyor operates through a simple yet effective process:

  1. Airflow Generation: A blower pushes air through a porous media (typically a fabric or ceramic plate).

  2. Material Fluidization: The air lifts and loosens particles, reducing friction.

  3. Gravity-Driven Flow: Materials slide downhill along the tilted chute (usually at 4°–12°).

Advantages Over Mechanical Conveyors:

→ 90% less energy than screw/belt conveyors
→ Zero wear (no chains, bearings, or motors to replace)
→ Dust-free & silent operation

Common Air Slide Problems & Solutions

1. Blockages Due to Poor Design

Cause: Low slope angle (<6°), sharp bends, or vertical feed drops.

Fix:

  • Increase slope to 8°–12° (e.g., a cement plant resolved blockages by adjusting from 6° to 8°).

  • Replace T-junctions with Y-junctions to reduce material impact.

2. Energy Waste from Oversized Fans

Myth: "More airflow = better performance."
Reality: Excess airflow wastes power and causes dust leaks.

Case Study: A plant saved ¥130,000/year by:

  • Replacing 7.5 kW fans with 4 kW fans.

  • Reducing airflow to 1.4 m³/(m²·min⁻¹) (vs. industry standard 1.5–3).

Illustrations and Photos of Air Slide Conveyor Transformation Before and After

Air Slide vs. Alternatives

FeatureConvoyeur à glissière pneumatiqueScrew ConveyorConvoyeur à bande
MaintenanceNoneHigh (bearings, seals)Moderate (belt wear)
Energy UseLowestHighMedium
Dust ControlExcellentPoorModerate

Tips for Optimal Pneumatic Chute Performance

  1. Right Slope: 8°–12° for most materials (test if blockages occur).

  2. Airflow Calibration: Start at 1.5 m³/(m²·min⁻¹) and adjust downward.

  3. Avoid Vertical Drops: Use 45° inclines for feed points.

Need an Air Slide Expert?

Whether you’re selecting, troubleshooting, or optimizing an air slide, our team can help. Darko, as a professional air slide manufacturer, is ready to provide technical consultation and solutions. Contact us for expert support!

Related Blogs

Analyse des problèmes de blocage des convoyeurs à glissière d'air

>  Comment résoudre les problèmes courants des convoyeurs à glissière d'air ?

Comment choisir le bon système de convoyage ?

Systèmes de broyage de l'industrie du ciment : Méthodes d'économie d'énergie

Cement Mill Buildup Phenomenon and Its Solutions

Comment prévenir efficacement les explosions de poussières ?

Produits apparentés

Convoyeur à glissière pneumatique
Convoyeur à bande
U-type Screw Conveyor
Convoyeur à vis sans fin de type LS

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Energy-Saving Solutions for Air Slide

Qu'est-ce qu'un convoyeur à toboggan pneumatique ?

Un air slide is a low-energy, maintenance-free system designed to transport powdered or granular materials (like cement, fly ash, or food ingredients) using controlled airflow. Unlike mechanical conveyors, it has no moving parts, relying instead on air fluidization to move materials smoothly along an inclined chute.

Key Industries Using Air Slides:

✔ Cement & construction
✔ Chemical processing
✔ Food & pharmaceuticals
✔ Power plants (fly ash handling)

How Does an Air Slide Work?

Les pneumatic conveyor operates through a simple yet effective process:

  1. Airflow Generation: A blower pushes air through a porous media (typically a fabric or ceramic plate).

  2. Material Fluidization: The air lifts and loosens particles, reducing friction.

  3. Gravity-Driven Flow: Materials slide downhill along the tilted chute (usually at 4°–12°).

Advantages Over Mechanical Conveyors:

→ 90% less energy than screw/belt conveyors
→ Zero wear (no chains, bearings, or motors to replace)
→ Dust-free & silent operation

Common Air Slide Problems & Solutions

1. Blockages Due to Poor Design

Cause: Low slope angle (<6°), sharp bends, or vertical feed drops.

Fix:

  • Increase slope to 8°–12° (e.g., a cement plant resolved blockages by adjusting from 6° to 8°).

  • Replace T-junctions with Y-junctions to reduce material impact.

2. Energy Waste from Oversized Fans

Myth: "More airflow = better performance."
Reality: Excess airflow wastes power and causes dust leaks.

Case Study: A plant saved ¥130,000/year by:

  • Replacing 7.5 kW fans with 4 kW fans.

  • Reducing airflow to 1.4 m³/(m²·min⁻¹) (vs. industry standard 1.5–3).

Illustrations and Photos of Air Slide Conveyor Transformation Before and After

Air Slide vs. Alternatives

FeatureConvoyeur à glissière pneumatiqueScrew ConveyorConvoyeur à bande
MaintenanceNoneHigh (bearings, seals)Moderate (belt wear)
Energy UseLowestHighMedium
Dust ControlExcellentPoorModerate

Tips for Optimal Pneumatic Chute Performance

  1. Right Slope: 8°–12° for most materials (test if blockages occur).

  2. Airflow Calibration: Start at 1.5 m³/(m²·min⁻¹) and adjust downward.

  3. Avoid Vertical Drops: Use 45° inclines for feed points.

Need an Air Slide Expert?

Whether you’re selecting, troubleshooting, or optimizing an air slide, our team can help. Darko, as a professional air slide manufacturer, is ready to provide technical consultation and solutions. Contact us for expert support!

Related Blogs

Analyse des problèmes de blocage des convoyeurs à glissière d'air

>  Comment résoudre les problèmes courants des convoyeurs à glissière d'air ?

Comment choisir le bon système de convoyage ?

Systèmes de broyage de l'industrie du ciment : Méthodes d'économie d'énergie

Cement Mill Buildup Phenomenon and Its Solutions

Comment prévenir efficacement les explosions de poussières ?

Produits apparentés

Convoyeur à glissière pneumatique
Convoyeur à bande
U-type Screw Conveyor
Convoyeur à vis sans fin de type LS

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