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Advances in stonedusting

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Insufficient quantities of stonedust in suspension will allow the coal dust to ignite ... Methane The ignition of methane in an underground mine is not common but ... – PowerPoint PPT presentation

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Title: Advances in stonedusting


1
Advances in stonedusting
2
  • I will talk about and show footage relating to
  • the basics about Stonedust
  • methane and coal dust explosions
  • why previous wet dusting attempts failed
  • ACARP project C16014 - Advances in wet slurry
    dusting
  • how the slurry additive process works
  • and look at the equipment involved in the process
  • Some information within this presentation is well
    known by the coal industry. It has been included
    to provide a summary of how various elements
    interact.

3
Stone dust
  • Stone dust or calcium carbonate is used in
    underground coal mines as a primary inerting
    agent, in the prevention of coal dust explosions.
  • The application of dry stone dust creates large
    quantities of airborne dust along the ventilation
    circuit, requiring the extraction of inbye
    personnel.
  • In a methane explosion, a pressure pulse travels
    through the immediate area of the mine.
  • This wave raises any dust into suspension, both
    coal and stonedust.
  • Areas treated with adequate quantities of stone
    dust, will render the dust cloud inert and a coal
    dust explosion will not occur.

4
Methane
  • The ignition of methane in an underground mine is
    not common but does occur.
  • Friction sparks from continuous miner and shearer
    drum picks have provided ignition sources for
    methane gas.
  • Other potential sources are cable flashes, belt
    friction, heating and open fires.
  • Given the right conditions a methane explosion
    itself is most explosive at 9 general body and
    has deadly consequences.
  • The following footage is a weaker explosion that
    compares to a typical 10 metre overdrive allowed
    to accumulate a methane concentration of only
    7.5.
  • If an ignition source is present.

5
7.5 Methane Explosion
6
7.5 Methane Explosion
7
7.5 Methane Explosion
8
Coal dust
  • Minimising the make of coal dust and reducing
    float dust is an ongoing challenge for all coal
    operations.
  • Areas that were stone dusted once, if left
    unmaintained, accumulate coal dust deposits
    providing fuel for an explosion to propagate.
  • Only 4-5mm of dry dust will be lifted in a weak
    methane explosion. The more float dust
    accumulated, the less of the underlying stone
    dust will be lifted.
  • We saw that a methane explosion creates a fire
    ball that travels behind the shock wave and hits
    the dust cloud.
  • Insufficient quantities of stonedust in
    suspension will allow the coal dust to ignite
    will obvious catastrophic consequences.

9
Coal dust explosion1 kg
10
Coal dust explosion75kg
11
Coal dust explosion75kg
12
Wet stone dusting
  • Wet dusting was always viewed as an opportunity
    to help overcome reductions in cutting times due
    to stoppages caused by stone dusting.
  • The onset of 7 day operations compounded the
    problem and attempts were made to apply stone
    dust as a slurry.
  • This allowed crews to continue production while
    wet dusting was carried out in the ventilation
    intakes of the panels.
  • Wet dusting is a process of creating a stone dust
    / water slurry and pumping it onto the mines
    walls.
  • The intent was to replicate the conventional dry
    dusting without the need to withdraw inbye
    personnel.

13
Wet stone dusting
14
Why wet dusting does not work
  • The application of wet dusting was proven however
    the final product failed to provide adequate
    inerting qualities.
  • When stone dust comes in contact with water the
    particles partly dissolve.
  • As the slurry dries, the dissolved solution moves
    between the stonedust particles forming a bonding
    bridge that locks the particles together.
  • This is referred to as The Caking Effect.
  • This caking reduces the amount of stone dust
    raised into suspension, creating enough doubt on
    its effectiveness as an inerting agent.
  • Inspectors in NSW and Qld rightfully issued
    directives restricting the use of slurry dusting

15
ACARP project C16014
  • Australian Coal Association Research Program
    (ACARP) contracted Mining Attachments to research
    and develop a wet slurry treatment process that
    could overcome the caking effect.
  • Applied Australia were requested to engineer an
    additive that would work but had to be end user
    friendly.
  • In 2006 the additive was ready to be trialled and
    tested on large scale.
  • The 3 stage project spanned over two years.
  • Surface full scale spray trials
  • Underground spraying trials
  • Full scale explosion testing
  • Industry monitors were required to assess each
    stage objectives were achieved, before advancing
    onto the next.

16
Airo-Dust Additive
  • Airo-Dust Additive has been designed with the
    primary focus of providing a safe product for use
    in the underground mining environment
  • The MSDS outlines all the health and safety
    requirements.
  • Non-combustible
  • Operators wear standard PPE
  • Classified Non-dangerous goods
  • Warnings in regards to skin, eyes, inhalation and
    ingestion are similar to those of concentrated
    household dishwashing detergent
  • pH of the additive is between 6-8 (water 7.0
    neutral)
  • The required dosage of 10 litres of additive is
    required to treat one tonne of stone dust.
  • Airo-Dust Additive is a trademark of Illinois
    Tool Works Inc.

17
Surface full scale trials
18
Surface full scale trials
  • Samples were taken during the surface spraying
    trials and sent for particle size distribution.
  • Results showed little change to the original
    particle sizes, supporting the anti caking
    ability of the process.
  • A simulated explosion demonstrated that the
    treated wet dust could be put into suspension.
  • The project moved to Cook Colliery, one of many
    operations that supported the project.
  • Mining Attachments fit for purpose equipment was
    mobilised onsite and the first underground trials
    began.

19
Underground Trials
20
Underground Trials
  • The experience gathered from the 6 months of
    trials allowed the necessary time to refine the
    process with dedicated personnel allowed to focus
    on achieving the projects aims.
  • Industry monitors evaluated the underground
    trials, operating the equipment and viewing other
    areas of the mine previously dusted using the new
    slurry additive process.
  • The project then moved into the final stages of
    conducting full scale explosion testing by third
    parties.
  • The new slurry additive process was named
    Airo-Dust.
  • The CSIR explosion testing facility in
    Kloppersbos South Africa, hosted comparative Dry
    vs Airo-Dust testing, facilitated by Skillpro
    Services.

21
Explosion Testing
  • The testing facility comprises of a 200m steel
    pipe tunnel that has a methane mixing station and
    ignition centre one end and the other end is
    open.

22
Explosion Testing
  • Trays were prepared prior to testing.
  • Prior to each test explosion, trays were weighed
    and secured into the tunnel.
  • After the blast the loss of stone dust from each
    tray was recorded.
  • High and low speed video footage captured each
    blast.

23
Explosion Testing
24
Explosion Testing
  • On average 40 more stonedust was lifted from the
    Airo-Dust trays compared to the stonedust lifted
    from the Dry dust trays.

25
Explosion Testing
  • On average the depth of dust lifted by the
    explosions also varied.
  • 4-5mm in the case of the Dry dust trays
  • in most cases the Airo-Dust trays were empty
    (30mm)

26
Explosion Testing
  • Full details of this project including all the
    results from the explosion and underground
    testing can be obtained on line by visiting
  • www.acarp.com.au Project number C16014

27
How the Airo-Dusting process works
  • Stonedust slurry is made by mixing two parts
    stonedust with 1 part water.
  • The Airo-Dust additive is dosed into the pump out
    line which provides a protection barrier around
    the stone dust particles, minimising the caking
    effect.
  • Air is entrained into the line to create a foam.
    The product is highly vesicular, trapping
    millions of tiny air pockets or voids in the
    product as it dries.
  • From the explosion testing it was evident that a
    methane pressure wave is able to penetrate these
    voids, smashing through the surface and raising
    the stonedust into suspension.

28
How the Airo-Dusting process works
  • The equipment consists of a mixing tank and
    paddle, slurry pumps, additive pumps and the foam
    generation equipment.
  • The system is non adjustable making the process
    less complicated and simple to use.
  • The additive is accurately dosed into the pump
    out line and delivers a steady stream of shaving
    cream like slurry to either a hand held nossel or
    machine spray bars.
  • Existing equipment can be modified or new custom
    made Airo-Dusters can be supplied.
  • The Airo-Dust additive is supplied and serviced
    Australia wide by ITWs Applied Australia or
    nominated overseas agent.

29
Equipment
30
Equipment
31
Getting started
  • A copy of the final ACARP report has been sent to
    both NSW and Queensland inspectors for review.
  • The NSW DPI have assembled a review committee to
    firstly review the ACARP report and secondly
    participate in the initial underground trials in
    NSW.
  • This will allow the Airo-Dusting process to be
    viewed from both a technical and practical
    perspective.
  • Operations can now make application to the NSW
    DPI to use the Airo-Dusting process underground.

32
Current participating sites
  • Grasstree Mine
  • 1 x existing wet duster modified into an
    Airo-Duster
  • 2 x new Airo-dusters
  • Greenside Colliery (South Africa)
  • 1 x new Airo-Duster
  • North Goonyella
  • 1 x Hire Airo-Duster
  • Centennial Coal (Mandalong, Clarence, Springvale)
  • DPI application pending
  • Vale (Integra Coal)
  • DPI application pending

33
Airo-Dusting
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