137Mining.jpg Mining & Mineral Products

Mines and quarries are very dusty places!

Based on data from installations, it's been estimated that as much as 1% of mining throughput can be lost to the surrounding environment. For a 700 TPH quarry, that's about seven tons per hour lost from conveyors, crushers and screens, and that does not include loses from stockpiles.

With mines and quarries are under pressure from two directions this is not good news:

Environmental Authorities: As suburban sprawl has reached many mines and quarries, people no longer accept a dusty environment. Environmental air quality authorities typically insist there be no visible dust emissions and limit total dust fallout beyond the boundary. Currently the EPA regulates Particulate Material at 35 µg/m3 for coarse particulate and 15 µg/m3 for fine particulate with the understanding that these limits may be much lower in "non-attainment" areas.

Occupational Health & Safety Authorities: Everyone understands employees should not work in a dusty environment. For dusts not otherwise regulated, the limit of dust concentration in the workplace is generally established as 15 mg/m3 for total dust and 5 mg/m3 for respirable dusts. If a dust has known hazardous properties, e.g. contains silica, then the allowable concentration is significantly reduced. As an example the current NIOSH guideline for crystalline silica sets a Permissible Exposure Limit (PEL) at only 0.05 mg/m3, to reduce potentially adverse health effects of silica dust exposure.

Good dust control is essential in meeting both environmental and occupational types of requirements.

 

GUIDELINES TO PRACTICAL DUST CONTROL

Years of experience in mining and quarry dust control has highlighted a number of significant points:

Good design and equipment selection is essential.

Anything marginal in either design or selection results in immediate or short term inadequacies in collector performance. The difference in selections between an effective and ineffective dust collector is often much narrower than in many other industries.

Everywhere that material is supposed to drop through air, dust is generated.

The most obvious dust generation points may seem to be conveyor transfer points and feed points from screens and crushers. But often, oversized feed-outs from screens or transfer of large product into bins will generate significant dust.

Budgetary constraints are important, so it is generally better to do some parts right than a lot of parts wrong.

 

DUST CONTROL IN SPECIFIC AREAS

The following is a list of some of the typical areas at mines and quarries generating dust that can be controlled by dust collection equipment:

  • Rail or truck dumps
  • Crushers
  • Screens
  • Conveyor belt transfer points
  • Silos or bin filling
  • Rail, barge or truck loading

 

DUST COLLECTORS PHILOSOPY: Source or Central

Two basic strategies exist for applying dust control to mines and quarries; source collection (putting the dust collector as the source of the dust emission so collected dust can be deposited directly back into the process stream) or centralised collection (putting the collector in a central location where dusty air is ducted to the collector and discharged as a separate process stream).

The main operating differences between these strategies are collector location and where the collected dust is sent. Source collection (placing the collector right at the source of the dust emission) returns dust to the initial process stream. Central systems generally remove dust from the original process stream and generate a separate process stream of collected dust. The desirability of each method depends mainly on the nature of the process and the relative merits of the collected dust being separated or incorporated in the final product.

Source collection operational advantages include:

  • Lower capital costs as less ducts, and fewer hoppers, screw conveyors or rotary valves are typically required.
  • Fewer maintenance problems as fewer ducts or hoppers are being used that can block or bridge. In addition, since there are fewer hoppers, there are no fewer hopper discharge devices that need to be maintained.
  • A shutdown of one unit may result in temporary increased emissions in a single area, but will be unlikely to necessitate a complete plant shutdown.

 

Dust Collection Considerations

The following points need to be considered in the selection of central dust collectors for mining and quarrying applications:

  • Mine and quarry dust is often abrasive and particle impact against filter media needs to be considered to avoid possible filter damage. This requires consideration of incoming air velocity, dust distribution, and air patterns within the collector.
  • Dust removal and disposal requires careful consideration to avoid blockages, equipment abrasion, secondary dust emissions, and higher costs for maintenance and materials handling.


Source collection systems may be easier to deal with since hoppers and ducting are often not used. But when using source collection, the following should be considered:

  • Since collectors are often much closer to the source of dust generation, be aware of any water or oil in the dust as this could create problems with filter medias.
  • Filter abrasion typically is not an issue, however, if the source collector is being used as a bin vent, place the collector as far from the inlet as possible to avoid abrasion and/or unnecessarily high dust loading.