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The ability of dust explosions to propagate is widely recognized but not fully understood, and this can lead to some myths or misconceptions. Fike touches on these myths, however, it does not provide complete technical information.

do not propagate against process flow

When a dust deflagration takes place in a vented vessel, the resulting reduced explosion pressure reaches and temporarily exceeds the static opening pressure of the explosion vent panel.

Because the pressure differential from the fan (which is used to convey particulate solids into process pipes) will be exceeded almost immediately, this results in a flow reversal and flame propagation downstream the pipe.

do not propagate in small diameter pipes

Flame propagation is challenged due to heat loss to the pipe walls and the increasing pipe resistance

The primary arguments for this are that flame propagation is challenged due to heat loss to the pipe walls and the increasing pipe resistance against the expansion flow. Several experiments observed consistent flame propagation, even when using a smaller pipe diameter.

So, the possibility of dust explosion propagation through pipes of small diameters must be carefully considered in the design and operation of powder handling systems.

do not propagate in dust-free pipes

Dust explosions do not need large amounts of fuel to propagate over long distances if any. Experiments have shown that even a 1 mm layer can create a dust explosion hazard in a typical room.

During a dust explosion, the volume of combustion gases increases by a factor of 8, leading to significant flow expansion. In addition, unburned dust is ejected and able to burn at a further distance as a secondary combustible cloud. These two mechanisms favor dust explosion propagation, even without the presence of dust layers.

Explosion Isolation Technology

To prevent explosion propagation, isolation should be used. There are several solutions explosion isolation can provide:

  • To prevent flame propagation and therefore ignition of a dust cloud in a secondary enclosure
  • To prevent pressure piling and flame jet ignition
  • To prevent deflagration to detonation transition in pipes

Achieving explosion technology

Passive systems are activated by the explosion itself, while active systems require tripping by a sensor

Explosion isolation can be achieved in two ways: either through active or passive systems. Passive systems are activated by the explosion itself, while active systems require tripping by a sensor for activation.

Essential is the placement of the device: if the isolation device is placed too far from the ignition, the deflagration can transit into a detonation before reaching the device and damage it. If it is placed too close to the ignition, it may not be entirely closed and able to block the passage of flame when it arrives.

Dust explosion propagation

By reviewing past incidents and experiments, dust explosion propagation in industrial-scale piping is a reality, not a myth, and must be carefully considered in the design and operation of powder handling systems. History has shown that the most devastating dust explosions occur when the initial fireball is allowed to propagate further, far away from the initial event, causing human losses and widespread damage.

Explosion propagation can be affected by many parameters. Large-scale testing forms an important step in the verification of the dynamics of the isolation barrier formation, its explosion resistance, and sealing against hot combustion gases.

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