CFM Requirements & Air Volume
Cubic Feet per Minute (CFM) is the fundamental measurement for dust collection system design. Proper CFM calculations ensure effective dust capture at each tool while maintaining adequate shop-wide air quality.
Last updated: 2026-02-27
Dust Collector CFM Calculator
Professional dust collection calculator for woodworking shops. Calculate CFM requirements, ductwork sizing, static pressure, and system design with comprehensive air filtration optimization.
CFM Requirements Ductwork Sizing Static Pressure System Design
Dust Collection System Parameters
Shop Configuration
Shop Dimensions
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ft
ft
ACH
Woodworking Equipment
Ductwork Configuration
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ft
System Specifications
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System Analysis
Configure your shop dimensions, equipment, and ductwork specifications to calculate comprehensive dust collection system requirements.
Proper dust collection is critical for health and safety. Follow OSHA guidelines and maintain adequate air velocity. Wood dust is a proven carcinogen (WHO Group 1).
Calculations are engineering guidelines. Verify system performance and consult HVAC professionals for complex installations.
How to Use This Calculator
- 1 Select Shop Type Choose your shop type (Hobby, Small Commercial, Production, Industrial, School, or Custom) to set baseline parameters.
- 2 Enter Shop Dimensions Input shop length, width, ceiling height, and desired air changes per hour for ambient air quality.
- 3 Add Equipment Add your woodworking machines. Each tool has specific CFM requirements based on size and dust volume.
- 4 Configure Ductwork Enter main duct diameter, total duct length, number of elbows, and gate valves for static pressure calculation.
- 5 Review System Analysis Get total CFM requirements, ductwork velocity, static pressure, filter recommendations, and system optimization.
Pro Tip: Design for future expansion. It is much easier to add blast gates to an oversized system than to replace the entire collector and ductwork later. Size your main trunk for at least 25% more CFM than current needs.
Ambient CFM = (Length * Width * Height * ACH) / 60 Tool-Specific CFM Requirements
Each woodworking tool requires specific CFM based on dust production rate, port configuration, and capture hood design.
| Tool Type | Size | CFM Range | Dust Volume |
|---|---|---|---|
| Table Saw | 10" Cabinet | 350-450 | Moderate |
| Thickness Planer | 13" | 700-900 | Very High |
| Jointer | 6-8" | 350-450 | High |
| Band Saw | 14" | 300-400 | Low-Moderate |
| Drum Sander | 16-25" | 550-1200 | Very High |
| Router Table | Standard | 200-300 | Low |
| CNC Router | Standard | 600-1000 | High |
These are typical reference ranges. Actual requirements may vary by tool model, port design, and dust characteristics.
Ductwork Sizing & Air Velocity
Proper ductwork sizing is critical for maintaining adequate air velocity to transport dust particles while minimizing static pressure losses.
| Component | Pressure Loss (in w.c.) | Unit | Impact |
|---|---|---|---|
| Straight Duct (rigid) | 0.10-0.15 | per 10 ft | Low |
| 90 deg Elbow | 0.50-1.50 | each | High |
| 45 deg Elbow | 0.25-0.75 | each | Moderate |
| Blast Gate (open) | 0.15-0.30 | each | Low |
| Flex Hose | 0.30-0.45 | per 10 ft | High |
| Bag Filter (clean) | 1.50-2.50 | total | Moderate |
| Cartridge Filter (clean) | 2.50-3.50 | total | Moderate-High |
| Cyclone Separator | 3.50-5.00 | total | High |
| HEPA Filter | 5.00-7.00 | total | Very High |
Actual losses depend on duct size, air velocity, material smoothness, and component quality.
System Design & Optimization
Effective dust collection system design balances CFM requirements, ductwork efficiency, static pressure management, and filtration performance.
Health & Safety Essentials
- Wood dust is a carcinogen (WHO Group 1) — proper collection is not optional
- OSHA PEL: 5 mg/m3 for softwood, 1 mg/m3 for hardwood dust
- Ground all metal ductwork to prevent static electricity buildup and fire risk
- Maintain 3500-4000 FPM minimum air velocity to prevent dust settling in ducts
- Install smoke/spark detection near sanders and high-friction operations
System Design Best Practices
- Two-stage systems (cyclone + filter) remove 95-98% of chips before the filter, extending filter life 5-10x
- Install blast gates at each branch — open only the active tool to concentrate CFM where needed
- Use rigid smooth-wall duct for main runs — flex hose only for final tool connections (3-6 ft max)
- Minimize elbows — each 90-degree elbow adds significant resistance. Use 45-degree or large-radius sweeps
- Size for future expansion — easier to add blast gates than replace entire system
Example: Small Shop System Calculation
- System: 40 ft of 6" rigid duct, 4 elbows (90 deg), 3 blast gates, 10 ft flex hose, cartridge filter
- Rigid duct: (40 ft / 10) * 0.12" = 0.48" w.c.
- Elbows: 4 * 0.75" = 3.00" w.c.
- Blast gates: 3 * 0.20" = 0.60" w.c.
- Flex hose: (10 ft / 10) * 0.35" = 0.35" w.c.
- Cartridge filter: 3.00" w.c.
- Total System SP: 7.43" w.c.
- Recommended Blower: 9-10" SP rating (with 20-25% margin)
Glossary of Terms
Cubic Feet per Minute - the volume of air moved through the system. Primary metric for dust collector sizing. Typical hobby shop: 800-1200 CFM. Commercial: 2000-5000 CFM.
Resistance to airflow measured in inches of water column (in w.c.). Total SP = sum of all component losses. Collector must overcome total SP to deliver rated CFM.
Feet Per Minute - the speed of air in the duct. Minimum 3500-4000 FPM required to transport dust and chips without settling.
Air Changes per Hour - how many times the shop air volume is completely exchanged. Hobby: 6-8 ACH. Production: 10-15 ACH.
A manual or automatic valve in a branch duct that opens/closes airflow to individual tools. Concentrates CFM at the active tool for maximum collection efficiency.
A pre-separator that uses centrifugal force to remove 90-95% of chips and dust before the final filter. Dramatically extends filter life and reduces maintenance.
Frequently Asked Questions
How do I calculate CFM requirements for my shop?
Use simultaneous tool CFM + ambient air changes. Each tool has specific requirements (table saw 350-450 CFM, planer 700-900 CFM). Add shop volume * ACH / 60 for ambient control. Most home shops need 800-1200 CFM total. Always add 20-30% safety factor.
What duct size should I use for my system?
Main trunk: 6-8" for home shops (600-1900 CFM), 8-12" for commercial. Branch ducts: 4" for tools under 400 CFM, 5-6" for 400-1000 CFM. Maintain 3500-4000 FPM velocity to prevent dust settling.
How much static pressure is acceptable?
Most residential collectors handle 6-10" w.c., commercial units 10-15" w.c. Calculate losses for each component, sum them, and add 20-25% margin. Total SP must stay within your blower's rated capacity curve.
What type of filter should I choose?
Bag filters: economical, 85-90% efficient. Cartridge filters: 95-98%, best for general shops. Cyclone pre-separators: remove bulk material before final filter. HEPA: 99.97% for health-critical applications but requires powerful blower.
How often should I clean or replace filters?
Monitor pressure drop across filters. Clean cartridge filters when pressure increases 2-3" above clean baseline. Replace bag filters every 6-12 months depending on usage. Cyclone bins should be emptied when 2/3 full.
What safety considerations are most important?
Ground all metal ductwork to prevent static buildup. Use spark-resistant materials near sanders. Maintain proper air velocity (3500+ FPM). Follow OSHA PEL limits (5 mg/m3 softwood, 1 mg/m3 hardwood). Dispose of oily rags properly to prevent fire.