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Considerations on wood pelleting: problems related to transitional regimes

Pelleting wood is a complex process, especially if the wood pellet or biomass is produced from different materials. To produce high quality pellets, it is important to use good quality wood and to ensure that the chips are evenly and evenly cubed.
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Pelleting wood is a complex process, especially if the wood pellet or biomass is produced from different materials. In order to produce high quality pellets, it is important to use good quality wood and to ensure that the chips are processed uniformly. This ensures that the pellets are of a homogeneous size and shape, thus making them easier to burn.

wood pelleting plants

Let's consider a pellet press that is working at full capacity and in optimal conditions

  • stable motor amperage (maximum oscillation +/- 20 Amps)
  • stable die and roller temperature (85-90°C)
  • uniform pellet length (20-25 mm)
  • uniform coloring of the pellet
  • uniform pellet density

But what happens if for a few minutes (e.g. 20-30 minutes) the flow rate of the system upstream of the press is reduced, for example due to problems with the dryer, temporary lack of raw material or a change of raw material. Changing working conditions create a transient. 

So what happens with the die temperature? As less product arrives, the temperatures of the extruder and those of the rollers increase.

What happens with the length of the pellet uniform? The pellet tends to stretch, with the risk of not complying with the Enplus regulations (40mm max).

What happens with the uniform coloring of the pellet? The pellet becomes darker, this is clearly due to the longer residence time of the material in the die.

With uniform pellet density? The density of the pellets increases, and this can also cause excessive vibrations during the pelleting phase.

During the transitional period, the working conditions change and consequently the results also change:

  • there is less product and therefore the die works mainly in the central area
  • the extruder therefore works in different conditions in the center compared to the peripheral rows
  • the pellets are no longer uniform: they have different colors, different lengths and different densities

What happens when you go back to steady state?

Does the die start working again in a uniform way on the whole band, or are the side rows blocked?
When the die works with little material, the side rows work less and tend to get clogged, this leads to a drop in production or even the risk of breakage of the die itself.

 

The first rule to have a stable and continuous process is to have product homogeneity and absolutely avoid transients

When we have transients:

  • when starting the plant at the beginning of the day.
  • humidity variation
  • production interruption due to lack of product
  • drop in production
  • change of type of wood
  • change of the origin of the wood
  • mixture of wood with different characteristics

 

How the die behaves during transients:

  • If the change goes from a favorable working situation to a less favorable one, we have a transitional period in which:
  • the die works mainly in the central and narrow area of ​​the working track
  • the die therefore works in different conditions in the center compared to the peripheral rows
  • the pellets are no longer uniform: they have different colors, different lengths and different densities
  • the die is subjected to pressure concentrated in restricted areas of the working track (higher specific pressure)

 

When is a product homogeneous?

A mixture is called homogeneous if it consists of a single phase and its components are no longer distinguishable by direct observation. A heterogeneous mixture is called a mixture.

 

Examples: 

What happens if for a few minutes (for example 20-30 minutes) the humidity of the sawdust at the entrance to the dryer changes suddenly (for example from 40 to 60%)?

  • The humidity of the product coming out from the dryer changes and it takes a few minutes before it returns to the stable situation.
  • A wetter raw material is also more spongy and elastic. As the pellets exit the compression channel, they tend to expand by rubbing against the walls of the conical, rough and irregular outlet. The product struggles to pass through and get stuck inside the holes, especially on the side rows.
  • The die therefore works mainly in the central area,it works in different conditions in the center compared to the peripheral rows and the pellets are no longer uniform: they have different colors, different lengths and different densities.

What happens if the dryer is fed with a mechanical shovel with sawdust stored outdoors in piles, and which   have a different surface humidity ?

(in summer the surface of the pile exposed to the sun is drier than the sawdust in the center of the pile; in winter the surface exposed to atmospheric agents is wetter than the central area of ​​the pile)

  • The humidity of the sawdust, loaded into the dryer, changes according to the point from which the mechanical shovel collects the sawdust.
  •  The humidity is variable at the entrance and, consequently, also at the exit of the dryer.

 

What are the consequences of these variations for the die and the pellet?

temperature of the die ? length, color and density of the pellet?

The difference in humidity is very important if it is not constant and stable   constant
These variations continuously change the working conditions and, consequently, also the results. 

 

What happens if there are multiple piles and the  operator randomly chooses which pile he takes the raw material from?
In this case the working conditions change continuously and, consequently, the results change too. Each change creates a transition, i.e. a transition from one working condition to another.

 

What happens when the pile is about to run out and the mechanical shovel scrapes the yard?
The shovel also collects sand and soil together with the sawdust which inevitably create abrasion phenomena on transporters, mills and pellet mills but above all these impurities end up in the pellets causing problems during the combustion phase