The reduction ratio of a double roll crusher is an important parameter that defines its efficiency in reducing the size of feed material. Here’s a detailed explanation:
Reduction Ratio of Double Roll Crushers
The reduction ratio (\( R \)) is defined as the ratio of the feed size to the product size:
\[
R = \frac{\text{Feed Size (F)}}{\text{Product Size (P)}}
\]
For double roll crushers:
– The typical reduction ratio ranges from 4:1 to 2:1, depending on material properties and machine settings.
– Some designs can achieve up to 5:1 for softer materials like coal or limestone.
Factors Affecting Reduction Ratio
1. Roll Diameter & Gap Setting
– Larger rolls allow higher reduction ratios.
– Adjusting the gap between rolls changes the output size.
2. Material Hardness & Friability
– Softer materials (e.g., coal, gypsum) allow higher reduction ratios.
– Harder materials (e.g., granite, quartz) require lower ratios.
3. Roll Speed & Surface Texture
– Smooth rolls provide better crushing for softer materials.
– Toothed or corrugated rolls improve grip and crushing efficiency for harder materials.
4. Feed Size Consistency
– Uniform feed ensures consistent product size and better reduction control.
Typical Reduction Ratios
| Material Type | Reduction Ratio (Approx.) |
|————–|————————–|
| Soft Coal | 4:1 – 5:1 |
| Limestone | 3:1 – 4:1 |
| Hard Rock | 2:1 – 3:1 |
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Calculation Example
If a double roll crusher receives a feed of 50 mm and produces .jpg)
roduct of 10 mm, the reduction ratio is:
\[
R = \frac{50}{10} = 5:1
\]
Conclusion
Double roll crushers are effective for intermediate crushing with moderate reduction ratios, making them suitable for coal, minerals, and soft to medium-hard rocks. The exact ratio depends on operational settings and material characteristics.
Would you like help with specific applications or design considerations?