Vertical Shaft Brick Kiln

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Vertical Shaft Brick Kiln, VSBK in Chambo, Ecuador - Horno Vertical Continuo HVC

About

  • developed in China in the late 1960s during the cultural revolution
  • updraft kiln for firing bricks
  • updraft = heat is reused (cold air entering below cools down the bricks, is then used for firing, then pre-warms up the still-cold bricks on top)
  • combines low cost of updraft firing with high fuel economy
  • usually fired with low-grade coal fines
  • said to be twice as energy efficient as Hoffmann kiln
  • firing shaft is very well insulated on all four sides, minimizing heat loss
  • bricks are loaded at the top and removed at ground level in a continuous process (see animation below for details)
  • each batch of bricks is made up of four layers, making a total of 320 bricks per batch
  • operation is very similar to that of a vertical shaft lime kiln
  • The firing process is completed within a 24-hour period

Videos

vsbk (vertical shaft brick kiln) from sajid on Vimeo.

Related Pages On This Wiki

Pros and Cons vs. Compressed Earth Bricks

Pro:

  • no liquid fuel needed (e.g. diesel, ethanol) that would otherwise be required for the CEB press; energy savings due to lower-grade fuel and no need for liquid fuel distillation
  • uses low-cost / low-quality fuel such as coal fines or charcoal fines, possibly pyrolysis gas from other processes
  • carbon negativity more easily achieved (if part of a Biochar/Brick Co-production System)
  • possibility to re-used waste heat (space heating for applications such as greenhouses, fish tanks, etc.)
  • no stabilizer needed (e.g. lime, flyash, etc.), leading to energy savings
  • reduced wear and tear on the infrastructure per brick (volume is large)
  • possibly more stable and more weather-resistant bricks (this requires comparisons, lab testing)
  • bricks are of consistently high quality (in fact, they HAVE to be, because of the compressive force that they have to withstand for the stacking)
  • likely less work needed per brick for handling (one of the links below describes the labor requirements thusly: "Labour requirements are low, requiring one man to load and two men to unload, during an 8 or 12 hour shift. The labourers are not working continuously, as there are 3 or 4 hours between each loading/unloading session.")
  • less need to monitor bricks over weeks (e.g. curing of CEBs with moisture monitoring etc.)

Con:

  • possibly increased fuel use per brick (this is not certain, as the VSBK is very efficient, and the fuel use for CEBs is not zero either)
  • a larger installation means less flexibility (this facility is not mobile, in contrast to CEB press)
  • potential air pollution problems (this is largely a factor of higher volume/concentration of production)
  • requirement for continuous operation on nights/weekends (there are breaks though - see labor requirements under "Pro")
  • it appears that this approach is only for the production of bricks. Tiles would have to be fired in some other way.

Development Proposal

The standard VSBK is coal-fired (low-quality coal fines). As shown in the animation above (on Vimeo), pieces of coal are scattered onto the bricks from the top. If such a brick kiln were re-designed as part of a pyrolysis system and using just the gas Biochar/Brick Co-production System), what would it look like? How could firing the central bricks be assured if gas enters from the sides?

Further Information (links)

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