Tag Archives: Eagle

BQE Water to help treat and manage mine-impacted waters at Eagle gold mine

BQE Water Inc, a leader in the treatment and management of mine impacted waters, has been contracted by PricewaterhouseCoopers Inc in its capacity as court appointed receiver of Victoria Gold Corp to assist with the emergency response and to mitigate environmental impacts caused by the failure of the cyanide heap leach facility at the Eagle gold mine on the Traditional Territory of the First Nation Na-Cho Nyäk Dun (FNNND) in central Yukon.

BQE Water’s scope includes recommendations for updates to the existing water management infrastructure to increase the site’s ability and adaptability to treat the present contaminant loading which the infrastructure was not designed for, and to meet all applicable discharge targets.

BQE Water is also responsible for planning and directing the operation of the updated water treatment infrastructure. In its role, BQE Water coordinates all activities very closely with all project stakeholders and interested parties including the Yukon Government and the FNNND.

The Eagle gold mine suffered from a heap leach failure on June 24, 2024.

David Kratochvil, President and CEO of BQE Water, said: “All at BQE are honoured to have been asked to step in to help with this very challenging water problem, and are working around the clock to minimise environmental impacts with our expertise and experience.”

Margaret Dumkee, the interim CEO of the Na-Cho Nyäk Dun Development Corporation, said: “We truly appreciate the effort by BQE Water to help address the emergency situation at Eagle Mine which is very important to the Nation. We value not only BQE’s technical expertise but also their genuine effort for transparent, coordinated, and holistic approach to bringing the water situation at the mine under control and involving the FNNND citizens and businesses in the process.”

Martin Engineering air cannon tech keeps the fines flowing at Lundin’s Eagle mine

Martin Engineering, a leader in industrial bulk handling, has helped Lundin Mining’s Eagle Mine in Michigan’s Upper Peninsula with clogging and downtime issues, resolving these problems and improving material flow with powerful and compact air cannon technology.

Martin Engineering installed the cannons in a chute carrying damp fines through the refining process at Eagle, with the cannons mitigating blockages and facilitating the movement of material. The result was improved safety, reduced labour costs, greater production, less downtime and a calculated circa-1,000% saving to the cost of operation over existing solutions.

“Safety is a top priority for us,” Ted Lakomowski, Lead Reliability Technician at Eagle Mine, said. “When we experienced clogging and downtime at the processing mill, our crew naturally swung into action to resolve it, but we immediately sought a safer long-term solution.”

Eagle Mine is the only primary nickel mine in the USA, producing 1.5% of the world’s total nickel production. The company extracts approximately 2,000 t/d from the underground nickel-copper mine using a bench-and-fill stoping process. Ore from the mine is stored in a covered coarse stockpile facility prior to transport to the Humboldt Mill. A former iron ore processing plant, the Humboldt facility’s three-stage crushing circuit reduces the material to 3/8 in-minus (9.5 mm-minus), then a single stage ball mill grinds it further and it is mixed into a slurry.

To liberate the nickel and other minerals from the waste materials, a refining process of selective flotation is used. During the crushing process, a mesh screen separates the fines from the remaining aggregate, which are fed back through the process. Fines that pass through a screen fall into a wide-mouthed hopper, leading to a chute that narrows to approximately 2.5-m wide by 0.6-m high and – after a dead drop of several feet – slopes in a circa-45º of decline. This slope slowed the descent of the fine material for a low impact and centred discharge onto a conveyor belt leading to the ore bins. Material buildup began at the hopper and at the discharge slope, but could also occur at virtually any point, blocking the chute, according to Martin Engineering.

Such accumulation would stop the entire crushing process approximately three-to-four times per shift for as long as an hour, blocking input of material all the way back to the ore storage area. Workers attacked the clog with 4.5-m long air lances from the top of the hopper and bottom of the chute. The method used a tremendous amount of compressed air and diverted manpower from other essential duties. Moreover, air lances caused excessive splash-back of wet material, which was extremely messy and potentially hazardous.

Eagle first installed a polymer lining in the chute. Offering a low coefficient of friction, the lining was bolted to the chute wall and acted like a smooth slide for the material to ride down. Less effective against the adherent qualities of the material than hoped, Eagle next installed pneumatic vibrators onto the vessel wall, intended to agitate the adhered material and promote its descent down the chute slope. But the fact that the polymer lining was bolted to the vessel caused it to dampen the vibration of the units, limiting the force to only the impact zone and not much farther.

“We were forced to default back to air lances, but kept on looking for a better solution,” Lakomowski explained. “Having worked with Martin Engineering in the past, we asked them to come in, examine the issue and offer a safe, effective and affordable solution.”

Lakomowski advocated for the initial installation of five 35 litre Martin® Hurricane Air Cannons, followed by two more placed in essential spots in the chute. One unit was placed at the area where material discharged into the hopper, two others were positioned at the hopper slope where the most accumulation was observed and two more were placed along the drop chute. All of the tanks were accompanied by a 101 mm pipe assembly ending in fan jet nozzles.

Offering more force output than designs double their size with considerably less air consumption, the compact air cannon tanks measure only 406 mm in diameter 633-mm long, weighing 35 kg each, Martin Engineering says. The units fire a shot of air at up to 120 psi (8.27 bar) through the pipe assembly to a fan jet nozzle. The nozzle spreads the air stream 304 mm at the exit point, distributing the blast pattern across the surface of the wall.

Operating on a regular firing schedule of every 1-10 minutes – readjusted for production volume, time of year and moisture level – revealed the seven-cannon configuration reduced clogging issues and downtime, according to the company. This significantly lowered the risk to operators and reduced the cost of operation.

“When I did the cost assessment, I was surprised to discover that there was a 1,000% compressed air savings in using the air cannons over the air lances,” Lakomowski said. “It’s a significantly lower effect on our system than initially predicted, and managers are very happy about that.”

The project also improved safety, as workers spent less time diverted from other assignments to use air lances or create vibration by beating on the vessel walls, Martin Engineering said. By being able to perform maintenance on wear parts like valves from the outside of the cannon without tank removal, upkeep can be safely performed by a single technician with no heavy lifting involved, it added.

“Just from a safety aspect, this solution has paid for itself,” Lakomowski concluded. “The Martin Engineering team was easy to work with, and they were cognisant of our budget restrictions. Overall, this was a successful project.”

First gold poured at Victoria’s Eagle mine in Yukon

Victoria Gold Corp has achieved its first gold pour at the Eagle mine in the Yukon, Canada.

The inaugural gold bar was poured by Sandy Silver, Yukon’s Premier, and weighed in at 1,001 oz, the company said.

John McConnell, President & CEO of Victoria Gold, said: “After all the blood, sweat and tears required to explore, develop, permit, finance and build a gold mine in Canada’s north, it is extremely gratifying to pour the first gold bar at Eagle.

“With this key milestone behind us, we are focused on building ore on the heap leach pad and exceeding expectations for all our stakeholders.”

Ramp-up of operations at site continues to proceed and the company said it was exceeding the ramp up schedule for ore mined and ore tonnes placed on the heap leach pad.

Eagle was expected to cost C$487 million ($367 million) to build and has the potential to produce around 200,000 oz/y from a mine operating at 33,700 t/d. The operation will produce doré from a conventional open-pit with a three-stage crushing plant, in-valley heap leach and CIL adsorption-desorption gold recovery plant.