How to Fill a Silo: Wood Waste Technology for the Modern Workshop and Biomass System

By Alexander Franklin, Director – Ranheat Engineering Ltd.

Whether you’re running a wood burning stove workshop, a full-scale woodworking factory, or just looking to streamline your wood waste technology, one of the biggest improvements you can make is in how your biomass system is fed. More specifically—how you fill your silo from your dust extraction system.

Here’s a breakdown of the main methods, their pros and cons, and where they work best.

1. Filter Mounted Directly on Top of the Silo (No Rotary Valve)

✔️ Very Low Capital Cost
💡 Very Low Running Cost

This is the simplest and cheapest method. The dust extraction filter is mounted directly onto the top of the silo. There’s no rotary valve, so there’s nothing to power or maintain.

Advantages:

  • Cheapest by far

  • Site labour only, no moving parts

  • Simple installation

Disadvantages:

  • Only works with smaller modular filters

  • Can’t be expanded easily

  • Back pressure can affect feed consistency

  • Not ideal for heavy wood waste loads

Best for:
Small workshops or starter systems using a workshop wood burner or wood burning water heater.

Existing bagged dust extraction system converted to automatic feed, connected to a Ranheat WA 300 industrial wood burner.
Bagged dust extractor retrofitted for automated fuel feed into a Ranheat WA 300 industrial wood burner.

2. Filter on Top of Silo with Rotary Valve

✔️ Low Capital Cost
💡 Low Running Cost

This is a small upgrade on the basic setup. The rotary valve adds back-pressure isolation and more consistent material feed.

Advantages:

  • No back pressure into the silo

  • Still compact

  • Suits fixed filter sizes

Disadvantages:

  • Limited expansion potential

  • Still limited by filter size

Best for:
Mid-size wood stove workshops, especially where consistent burner feed is essential.

 Dust extraction filter mounted above a biomass silo with rotary valve connection.
Filter-to-silo connection using a rotary valve to prevent back pressure.

3. Closed Loop Cyclone with Transfer Fan

✔️ Medium Capital Cost
⚡ High Running Cost

In this system, a dedicated fan moves material from the dust system to a cyclone, which deposits it into the silo.

Advantages:

  • Very large filters can be used

  • Filter can be placed anywhere

  • Works with complex ducting runs

Disadvantages:

  • High fan power (15–18.5kW)

  • Continuous fan running = high electricity cost

  • More duct maintenance

Best for:
Larger sites where wood waste is generated in different buildings and ductwork routing is tricky. However, it depends.

Biomass system cyclone with fan-assisted dust transfer to a silo.
Closed loop cyclone system with transfer fan—high performance, higher energy use.

4. Vertical Auger Feed System

✔️ Medium to High Capital Cost
💡 Low Running Cost

This system uses two horizontal augers feeding into a vertical auger that lifts material into the silo. Compact and powerful.

Advantages:

  • Great throughput

  • Works with large filters

  • Ideal where space is tight

Disadvantages:

  • Nails or long offcuts can jam the auger

  • Cost varies depending on length of horizontal runs

Best for:
Wood heater parts plants or woodworking factories with tight floor space and lots of dust.

3D render of a vertical auger system with two horizontal augers feeding and removing woodwaste from the central screw.
Vertical auger feed system—compact solution for tight factory layouts.

5. Drag Conveyor System

✔️ High to Very High Capital Cost
🌿 Extremely Low Running Cost

This premium setup uses a mechanical drag chain to move material from the filter to the silo. It’s the ultimate in efficiency.

Advantages:

  • Very low energy usage

  • Silent and reliable

  • Easy to maintain

  • Works with big filters and heavy waste

Disadvantages:

  • High initial cost

  • Requires careful site planning

Best for:
Industrial biomass systems with high-volume dust output and where running cost matters most.

Biomass drag conveyor connecting extraction filter to silo inlet.
Low-energy drag conveyor system—ideal for large filters and silos.

Why This Matters for Your Biomass System

If you’re running a wood burner, biomass boiler, or wood waste heating system, the way you move material from dust extraction to silo directly affects:

  • Labour requirements

  • Electrical usage

  • System reliability

  • Fire safety and ATEX compliance

  • Burner feed consistency


Integration with Chippers and Offcut Waste

For businesses producing lots of board offcuts or skeleton waste, adding a chipper close to the cutting zone saves serious labour. Chipped material can be sent straight into the dust extraction system and then into the silo.

Best for:
High-throughput woodworking factories or workshops with lots of bulky timber waste.


Final Thoughts: Pick the Right Fit for Your Wood Waste

Every workshop and factory is different. Whether you’re using a wood burning stove, workshop wood burner, or investing in a full biomass boiler, your silo feeding method should match your fuel, footprint, and long-term goals.

At Ranheat, we’ve installed every type of silo system across the UK and Ireland. Let’s talk about which one is right for your business.

📞 01604 750005
✉️ [email protected]
🌐 www.ranheat.com

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  • 29 April 2025
  • Alexander Franklin
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