Selecting the correct shredder size is one of the most important decisions in a recycling or waste processing project.
An undersized shredder may cause bottlenecks, excessive wear, and reduced throughput. An oversized machine may increase capital investment and energy consumption unnecessarily.
To achieve efficient material processing, recyclers must evaluate waste characteristics, capacity requirements, output specifications, and downstream equipment compatibility before selecting a shredder.

What Does “Sizing a Shredder” Mean?
Shredder sizing refers to the process of selecting the appropriate shredder type, motor power, cutting chamber size, rotor configuration, and throughput capacity based on the characteristics of the waste stream.
The goal is to ensure stable operation, optimal particle size reduction, and maximum equipment utilization.
Why Proper Shredder Sizing Matters
The correct shredder size improves productivity, reduces operating costs, extends blade life, and ensures consistent material output.
Improper sizing can lead to equipment overload, excessive downtime, and inefficient recycling operations.
Benefits of Proper Sizing
- Higher throughput efficiency
- Lower energy consumption
- Reduced blade wear
- Better material flow
- Improved downstream processing
- Lower maintenance costs
Step 1: Identify Your Waste Stream
Material Type Determines Shredder Selection
Different materials require different shredding technologies.
| Material Type | Recommended Shredder |
| Plastic Films | Single Shaft Shredder |
| PET Bottles | Single Shaft or Double Shaft Shredder |
| Plastic Lumps | Single Shaft Shredder |
| Woven Bags | Single Shaft Shredder |
| Wood Pallets | Double Shaft Shredder |
| Tires | Double Shaft Shredder |
| E-Waste | Single Shaft Shredder |
| Municipal Solid Waste | Double Shaft Shredder |
| Industrial Waste | Single or Double Shaft Shredder |
Key Considerations
Evaluate:
- Material hardness
- Material density
- Moisture content
- Abrasiveness
- Bulk size
- Contamination level
Step 2: Calculate Required Throughput
Determine Hourly Capacity
Throughput is usually measured in:
- kg/h
- tons/hour
Typical examples:
| Processing Requirement | Recommended Capacity |
| Small Recycling Plant | 500–1,000 kg/h |
| Medium Recycling Plant | 1–5 tons/h |
| Large Recycling Facility | 5–20 tons/h |
Formula
Required Throughput = Daily Processing Volume ÷ Operating Hours
Example:
20 tons/day ÷ 8 hours = 2.5 tons/hour
The shredder should be sized above the calculated average capacity to accommodate peak loads.
Step 3: Determine Desired Output Size
Output Size Influences Machine Design
The required particle size affects shredder configuration.
| Output Size | Typical Application |
| 20–50 mm | Granulation |
| 50–100 mm | Washing Lines |
| 100–300 mm | RDF Production |
| >300 mm | Primary Shredding |
Single shaft shredders generally provide better particle size control due to integrated screens.
Step 4: Evaluate Motor Power Requirements
Power Depends on Material Resistance
Typical power ranges:
| Application | Motor Power |
| Plastic Film | 22–55 kW |
| PET Bottles | 37–75 kW |
| Plastic Lumps | 55–110 kW |
| Tires | 75–200 kW |
| MSW | 75–250 kW |
Higher-density materials require higher torque and motor power.
Step 5: Select the Right Shredder Type
Single Shaft Shredder
Best for:
- Plastics
- PET Bottles
- Films
- Woven Bags
- E-Waste
Advantages:
- Uniform output size
- Screen-controlled discharge
- High material recovery efficiency
Double Shaft Shredder
Best for:
- Tires
- Wood
- Metal Drums
- MSW
- Industrial Waste
Advantages:
- High torque
- Handles bulky materials
- Excellent primary size reduction
Common Sizing Mistakes
Choosing Based on Motor Power Alone
Motor power does not determine overall processing performance.
Ignoring Future Capacity Expansion
Select equipment with room for future growth.
Overlooking Material Variability
Waste composition may change over time.
Underestimating Peak Loads
Daily average throughput is often lower than actual peak demand.
Equipment Sizing Checklist
Before purchasing a shredder, determine:
✓ Material type ✓ Material dimensions
✓ Bulk density ✓ Moisture content
✓ Required throughput ✓ Desired output size
✓ Operating hours ✓ Downstream equipment requirements
✓ Future expansion plans
Conclusion
Proper shredder sizing is essential for maximizing recycling efficiency and minimizing operating costs. Material type, throughput, output size, and power requirements should all be evaluated together.
By selecting the right shredder configuration, recycling facilities can improve productivity, reduce maintenance, and achieve more consistent material processing results.
Streamline Eco Tech Solution
Streamline Eco Tech provides customized shredding solutions for plastic recycling, PET recycling, industrial waste processing, and resource recovery projects.
Our product range includes:
- Single Shaft Shredders
- Double Shaft Shredders
- Industrial Crushers
- Recycling System Integration
Streamline Eco Tech helps recyclers select the right shredding equipment based on material characteristics, production targets, and operational requirements.