yield enhancement via fines recovery · yield enhancement via fines recovery – the coal...
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YIELD ENHANCEMENT VIA FINES
RECOVERY
Alistair Harriman, Peabody - presenter
and Kelly Walton, James Graham,
Somerset International Australia
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Yield Enhancement via Fines Recovery
– The coal beneficiation plant
– Dewatering the flotation concentrate
– Recirculating ultrafine coal
– Froth carrying limitations
– The solid bowl solution
– Implementation constraints
– Performance testing
– Additional benefits
– Next steps
– Questions
Content
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The coal beneficiation plant
The standard DMC / Spiral / Froth Flotation circuit
DESLIME SCREEN
SPIRAL CONCENTRATOR
CLASSIFYING CYCLONE
FROTH FLOTATION
DENSE MEDIUM CYCLONE
20%
60%
20%
Mass split
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Flotation concentrate handling
Typical Australian circuit
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TAILINGSFEED
FLOTATION CELL
SCREEN BOWL CENTRIFUGE
PRODUCT
FLOTATION CONCENTRATE
● The fine coal (-250µm) is processed through the froth flotation
circuit
● The flotation circuit is often not recognised as a capacity (or
specifically recovery) constraint
● The main issue is that although there is more floatable material
being lost to tailings, the material carrying capacity of the froth is
100% loaded
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Dewatering the flotation concentrate
The Screen Bowl Centrifuge
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Recirculating ultrafine coal
Focus on the centrifuge centrate and effluent
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TAILINGS
FEED
CENTRATE
FLOTATION CELL
SCREEN BOWL CENTRIFUGE
EFFLUENT
PRODUCT
FLOTATION CONCENTRATE
124 t/h
50 t/h
2 t/h
74 t/h
25 t/h (product)
67 t/h
15 t/h
72 t/h
● The dewatering circuit function is to produce a low moisture, handleableproduct and it is expected that centrate/effluent streams will contain some residual material
● These streams are directed back to the initial process stages in order to maintain the water balance and minimise fines loss
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Fine coal recirculating load
Effect of ultrafine coal recirculation
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● 27% of the flotation concentrate
mass is does not go to product
● The majority of this loss is
recirculated to the start of
flotation
Flotation concentrate
Final product
Centrate
Effluent
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Fine coal recirculating load
Effect of ultrafine coal recirculation
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Recirc fines in flotation feed (mass)
Fresh feed
Recycled fines
● 27% of the flotation concentrate
mass is does not go to product
● The majority of this loss is
recirculated to the start of
flotation
10% of the flotation feed by mass is recirculated fines
Flotation concentrate
Final product
Centrate
Effluent
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Fine coal recirculating load
Effect of ultrafine coal recirculation
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Recirc fines in flotation feed (mass)
Fresh feed
Recycled fines
Recirc fines in flotation feed (surface area)
Fresh feed
Recycled fines
● 27% of the flotation concentrate
mass is does not go to product
● The majority of this loss is
recirculated to the start of
flotation
10% of the flotation feed by mass is recirculated fines
30% of the flotation feed by surface area is recirculated fines
Flotation concentrate
Final product
Centrate
Effluent
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Froth carrying limitations
More bubbles or smaller bubbles?
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Diameter = 1 cmVolume = 0.52 cm³
Surface = 3.14 cm²
● Capacity is related to air flow and
bubble size
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Froth carrying limitations
More bubbles or smaller bubbles?
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Diameter = 1 cmVolume = 0.52 cm³
Surface = 3.14 cm²
Diameter = 0.5 cmVolume = 0.52 cm³
Surface = 6.24 cm²
● Increasing the air flow is not
always a solution due to mixing
intensity
● Capacity is related to air flow and
bubble size
● Increasing frothing reagent dosage
decreases bubble size thus increases
capacity but causes undesirable
frothing in other parts of the circuit
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The traditional solution
– The flotation constraint had long been recognised
– Additional flotation capacity was agreed by all as being necessary
– Considerable work had been conducted over the years to quantify how
much additional capacity was required and minimise the capital spend to
achieve this
– Extend the plant footprint, install another Jameson Cell and screen bowl
centrifuge
– ~$10m will solve the problem
Capital will solve any problem
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● Working with Somerset international Australia it was identified that by removing the ultrafine coal recirculating to the flotation feed will free up capacity to further recovery coal currently being lost to tailings
● SIA modelling indicated that their solid bowl centrifuge could capture this material and achieve this result
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Reducing the recirculating fines
Beneficiation plant
Flotation circuit Product Dewatering
Recirculating load
Plant feed
Product stockpile
The solid bowl centrifuge installation reduces the recirculating load and frees up flotation capacity thereby allowing additional product to be recovered from the tailings
Tailings
The alternative solution
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The Technology
The Solid Bowl Centrifuge
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The solid bowl centrifuge
Somerset International Australia
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Screen bowl centrifuge
Solid bowl centrifuge
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Implementation constraints
● The Challenges facing the industry
– Market downturn with restrictions on capital availability
– Limited site personnel especially in the technical roles thus no ownership
on site
– Adoption of a new dewatering technology unlikely without extensive pilot
scale testing
– Typical engineering through to commissioning is in excess of 18 months
How was it possible to get project approval in 2016
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Implementation constraints
● The Challenges facing the industry
– Market downturn with restrictions on capital availability
– Limited site personnel especially in the technical roles thus no ownership
on site
– Adoption of a new dewatering technology unlikely without extensive pilot
scale testing
– Typical engineering through to commissioning is in excess of 18 months
● The production partnership
– New partnering approach jointly focussed on delivering value
– Innovative technology and commercial model
– Risk / Reward sharing
– Rapid implementation and minimal disruption to production
– “Lost coal recovered and on the product belt” in 4 months
How was it possible to get project approval in 2016
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Somerset Design – Sub325TM Installation
• Readily integrated into
existing plant footprint
• No interruption to existing
operations
• Fully automated, remotely
controlled
• Short installation timeframe
• Small footprint, on ground
installation
• Simple, established design
SIA design for new Bowen Basin CPP centrifuge installation
- Commissioned Mar ‘17 -
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Somerset Design – Sub325TM Installation
Product conveyor
• 4 month Project implementation - from contract to delivery of tonnes on product belt
Effluent flotation cell
Mixing tank
Sub325TM solid bowl
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Performance testing
Measuring an incremental gain against a variable target
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Overall gain
Performance audit results
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Additional benefits
● The installation and production partnership
– Increased focus on plant performance
– Reliability
– Recovery
– Process stability
● Additional recovery from tailings
– Less mining for same tonnes
– Reduces overtime and high cost production hours
– Less waste sent to tailings dam
– Typical disposal costs = Au$6 /tonne
– Increased blending opportunities with other Peabody mines
Evaluating the gains
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Next steps
● Integration with control systems and
PACE
● Effluent flotation to address volumetric
loading
● Scavenger flotation to capture residual
value in tailings
● Sets the benchmark for other
technology suppliers and service
providers to negotiate aligned KPIs and
benefits
Further opportunities and enhancements
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QUESTIONS