cost of hard rock gold processing plant

alluvial gold processing plant - gold wash plant supplier from china

Hengcheng offers complete project solutions for Alluvial Gold Processing Plant. We are one of the leading project suppliers for Alluvial Gold Wash Plant Equipment and we work closely with our customers to fulfill their specific needs for customized package solution. Specialized in the fabrication of these machines for 15+ years and this enables us to be in a leading position in the field of Alluvial Gold Processing.

Alluvialis a term that refers to soil sediments and the various sand, silt, gravel, clay or other deposited matter left behind by flowing water. Alluvial gold refers to the type of gold dust found in that kind of soil. When the beds of rivers or streams are scooped and panned for gold dust, the product is referred to asalluvial gold. Best way to extract such alluvial/soil gold is using gravity separation method, which is most cost-effective choice for miners now.

At Hengcheng, we provide more than just gold washing equipment, but constantly strive to assist you in achieving overall business excellence. This is why when you partner with Hengcheng, you dont just get a diversified product offering, but form a relationship based on product refinement, a true understanding of gold process flow sheets and field service and maintenanceensuring that together we will create a solution that is suited specifically to your individual needs and that will optimize your process and lower your overall operating costs.

At Hengcheng, we provide more than just processing equipment, but constantly strive to assist you in achieving overall business excellence. This is why when you partner with Hengcheng, you dont just get a diversified product offering, but form a relationship based on product refinement.etc

small and medium scale hard rock processing plants for rapid gold production appropriate process technologies | mineral processing plants

We at APT are proud to bring you our RD50 and RD100 Hard Rock Processing Plants, offering highly economical solutions for rapid gold production on a small to medium scale. Leading on from our small scale RDGK, these two robust and compact solutions are rated for up to 5tph and 10tph respectively, and are perfectly suited to the liberation of minerals at a relatively coarse size.

A: This plant was designed to crush rock to liberate the gold via impact crusher and then capture this in APTs GoldKacha concentrators. The system uses a very simple feed tray to manually feed the RD50 crusher with the slurry feeding directly to 3 x GoldKacha concentrators.

geology of hard rock gold deposits

Man knew more about gold itself and lusted for it much before he understood the geology of hard rock gold or its deposits. Man had to learn about hard rock extraction methods and how to locate those gold deposits just to satisfy the thirst for that yellow metal. Gold has been the most highly esteemed and sought after precious commodity since the times of antiquity It has spurred on numerous expeditions and conquests dating back to Alexander the Great, to Caesar of Rome and to Cortezs conquests of Central and South America. The greed for gold throughout history has led to the enslavement of nations, conflict between nations and appalling treatment of men. Golds beauty, unique density, relatively low melting point and ability to form coinage made it a natural trading medium.

Gold as a currency dates back to ancient Greece. Various forms of gold-backed currencies developed throughout history. The last gold standard developed was the Bretton Woods Agreement after WWII. Under this agreement, the US dollar alone was pegged to gold and all other currencies were related to the USD. This was eliminated by President Nixon (US) in 1971, thus ending a very long history of the reliance of the gold standard for trade. Up until recently, gold was considered as a safe haven for investment in times of economic and geopolitical turmoil.

Gold is soft, yellow, has a relatively high melting point of 1,064oC and is the most ductile and malleable of all metals. Its atomic number is 79 and is a member of the group 1B metals which is a subgroup of the larger transitional group of metals. The other metals of the 1B group are silver copper and roentgenium. With the exception of roentgenium, the other metals in this group were known as coinage metals. Again with the exception of roentgenium, the 1B group have a similar electron configuration with one electron in their outer shell. Like all other transitional metals, including silver and copper, golds valence electrons the electrons that combine with other elements are present in more than one shell. All 1B metals are relatively inert and are corrosion resistant gold is very dense and has a specific gravity of 19.3 and an atomic weight of 197. Golds high electrical and thermal conductivity, are only superseded by that of by two other 1B elements -silver and copper.

It exists in nature in its native form, and alloyed, most often with silver and to a lesser extent with copper. It rarely occurs in nature in compounds, but when it does it occurs in tellurides such as AuTe2 and selenides (AUSe). Many pyrite and pyrrhotite minerals contain gold, which is often recovered when extracting copper from lode vein deposits. The purity of gold is stated in terms of fineness and carats (ct). Fineness is defined as the parts per 1000. For example gold with a fineness of 800 means it is 80% pure gold. Alternatively, gold that is 100% pure is 24ct.

Subduction Zones: These zones occur where the heavier oceanic plate pushes under the lighter continental plate and slides beneath it. Volcanoes are often formed in these zones thus explaining the Ring of Fire around the Pacific Ocean subduction zone. Water can percolate down towards the magma or connate water (water coming from the magma) can be enriched in metals and then deposited in the surrounding rock.

Up until 2006, South Africa was the largest producing nation of gold. However, since then South Africas gold production has been eclipsed by China, Australia, Russia, United States, Canada and Peru. Other major gold producing countries include, Uzbekistan, Mexico, Ghana, Papua New Guinea and Chile. The largest gold deposit that is currently being mined is the Grasberg Mine in Papua, Indonesia. This mine which is owned by gold miner Freeport McMoRan has known reserves of 100 million ounces. The largest undeveloped gold deposit is the Pebble deposit located near the foot of the Aleutian Peninsula in Alaska. It has reserves of 107 million oz. The development of this deposit is currently on hold due to environmental concerns, specifically due to being the home of the worlds largest sockeye salmon runs.

These, then are some of the attributes of gold and the characteristics of some of its occurrences. Hopefully, it can be seen that gold has played a key role in the discovery of the New World and other historical events and continues to play a role in the economic vicissitudes of the world economy.

how to recognize hard rock gold ores | icmjs prospecting and mining journal

I regularly get inquiries along the line of: Hey, I found this rock, and I think it might be gold ore. How can I tell? Prospectors are always on the lookout for gold-bearing rocks that may be the source of any nearby placer gold.

Subscription Required: The Bawl Mill Our Readers Say Ask The Experts - Where can I get geological maps? Ask The Experts - What happens to gold during flash flooding in dry areas? Ask The Experts - How do gold and silver stocks react in market crashes? Ask The Experts - I need help with more in-depth mining research Ask The Experts - Is this gold? Legislative and Regulatory Update Entry-Level Metal Detectors for Gold Prospecting MMAC Update Nice Specimen Gold Recovered in Northern California The Coeur Rochester Mine Detecting and Recovering Those Tiny Pieces EPA Chief to Reconsider Paying Claims Over Mine Waste Spill Environmental Analysis Starts for Proposed Idaho Gold Mine Melman on Gold & Silver Mining Stock Quotes and Mineral & Metal Prices

hardrock gold project, thunder bay, ontario, canada

Hardrock gold project is an open-pit project located approximately 275km north-east of Thunder Bay, Ontario, Canada. Greenstone Gold Mines, a partnership between Centerra Gold and Premier Gold Mines, is developing the gold project with an estimated investment of C$1.25bn ($962m). Feasibility study of the project was completed in November 2016, while the environmental assessment study was approved by the Federal Government in December 2018. The Hardrock project is expected to produce 4.2 million ounces (Moz) of gold through its mine life of 14.5 years. It is anticipated to create 450 permanent and 975 construction jobs.

Greenstone Gold Mines, a partnership between Centerra Gold and Premier Gold Mines, is developing the gold project with an estimated investment of C$1.25bn ($962m). Feasibility study of the project was completed in November 2016, while the environmental assessment study was approved by the Federal Government in December 2018. The Hardrock project is expected to produce 4.2 million ounces (Moz) of gold through its mine life of 14.5 years. It is anticipated to create 450 permanent and 975 construction jobs.

Feasibility study of the project was completed in November 2016, while the environmental assessment study was approved by the Federal Government in December 2018. The Hardrock project is expected to produce 4.2 million ounces (Moz) of gold through its mine life of 14.5 years. It is anticipated to create 450 permanent and 975 construction jobs.

The Hardrock gold project is hosted within a brownfield location, which operated from the 1930s to 1970s. The property is a part of the southern sedimentary unit of the Beardmore-Geraldton Greenstone Belt (BGB). The Hardrock deposit comprises magnetite-rich chert banded iron formation (BIF) deposited within a combination of sandstone-argillite and minor polymictic conglomerate layers. Two main styles of mineralization namely quartz-carbonate stringer mineralization and sulfide replacement mineralization are identified at the project. Hardrock gold project reserves As of December 2017, the Hardrock gold project was estimated to contain proven and probable mineral reserves of 70,858 tonnes (t) containing 2.3Moz of gold, grading 1.0g/t. Mining at Hardrock gold project Conventional open-pit mining method with hydraulic shovels and trucks will be applied at the Hardrock gold project. Major mining fleet will include 30 200t haul trucks, three hydraulic shovels, and two 21m front loaders in addition to excavators, wheel and backhoe loaders, and track dozers. The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

The Hardrock deposit comprises magnetite-rich chert banded iron formation (BIF) deposited within a combination of sandstone-argillite and minor polymictic conglomerate layers. Two main styles of mineralization namely quartz-carbonate stringer mineralization and sulfide replacement mineralization are identified at the project. Hardrock gold project reserves As of December 2017, the Hardrock gold project was estimated to contain proven and probable mineral reserves of 70,858 tonnes (t) containing 2.3Moz of gold, grading 1.0g/t. Mining at Hardrock gold project Conventional open-pit mining method with hydraulic shovels and trucks will be applied at the Hardrock gold project. Major mining fleet will include 30 200t haul trucks, three hydraulic shovels, and two 21m front loaders in addition to excavators, wheel and backhoe loaders, and track dozers. The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Two main styles of mineralization namely quartz-carbonate stringer mineralization and sulfide replacement mineralization are identified at the project. Hardrock gold project reserves As of December 2017, the Hardrock gold project was estimated to contain proven and probable mineral reserves of 70,858 tonnes (t) containing 2.3Moz of gold, grading 1.0g/t. Mining at Hardrock gold project Conventional open-pit mining method with hydraulic shovels and trucks will be applied at the Hardrock gold project. Major mining fleet will include 30 200t haul trucks, three hydraulic shovels, and two 21m front loaders in addition to excavators, wheel and backhoe loaders, and track dozers. The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Hardrock gold project reserves As of December 2017, the Hardrock gold project was estimated to contain proven and probable mineral reserves of 70,858 tonnes (t) containing 2.3Moz of gold, grading 1.0g/t. Mining at Hardrock gold project Conventional open-pit mining method with hydraulic shovels and trucks will be applied at the Hardrock gold project. Major mining fleet will include 30 200t haul trucks, three hydraulic shovels, and two 21m front loaders in addition to excavators, wheel and backhoe loaders, and track dozers. The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

As of December 2017, the Hardrock gold project was estimated to contain proven and probable mineral reserves of 70,858 tonnes (t) containing 2.3Moz of gold, grading 1.0g/t. Mining at Hardrock gold project Conventional open-pit mining method with hydraulic shovels and trucks will be applied at the Hardrock gold project. Major mining fleet will include 30 200t haul trucks, three hydraulic shovels, and two 21m front loaders in addition to excavators, wheel and backhoe loaders, and track dozers. The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Conventional open-pit mining method with hydraulic shovels and trucks will be applied at the Hardrock gold project. Major mining fleet will include 30 200t haul trucks, three hydraulic shovels, and two 21m front loaders in addition to excavators, wheel and backhoe loaders, and track dozers. The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Major mining fleet will include 30 200t haul trucks, three hydraulic shovels, and two 21m front loaders in addition to excavators, wheel and backhoe loaders, and track dozers. The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

The plan includes mining of the main pit in four phases (including a borrow pit) and a single phase for the smaller satellite pit to the East. Ore processing at Hardrock gold project Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Run-of-mine ore will undergo two-stage crushing at 27,000 tonnes per day (tpd) processing plant, which can be optionally increased to 30,000tpd, and will be stockpiled. It will be then forwarded to ball mill grinding and high-pressure grinding rolls (HPGR) gravity circuit. Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Concentrates form the gravity stage will be combined in a single gravity concentrate leaching unit comprising pre-leach thickener, leach, and carbon-in-pulp circuit (CIP). The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

The resulting concentrates will then undergo acid-wash, elution, and carbon regeneration before being conveyed to the electro-winning circuit. Gold sludge recovered from the product will be smelted into dore bars in the refinery. Infrastructure facilities at the Hardrock gold project Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Access to the Hardrock gold project is by paved roads from the Trans Canada Highway 11 and from Geraldton. Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Power required for the project will be supplied by an on-site 65MW natural gas-fired power plant. Potable water for the mining activities will be collected from the town of Geraldton. Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Natural gas for the project will be sourced from the TCPL Canadian Mainline pipeline. Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

Workers will be accommodated at a 250-person temporary accommodation camp to be located approximately 2.5km from the processing plant. Contractors involved G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

G Mining Services and a group of engineering consultants were engaged to prepare the feasibility study and technical report of the project. The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

The consultants group is made up of Stantec Consulting, Micon International, WSP Canada, TBT Engineering, Amec Foster Wheeler Environment and Infrastructure, and Golder Associates.

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Based on our revolutionary patented transverse spiral concentrator belt and benefiting from almost 20 years of development experience, the system boasts fine gold recovery rates of 95%-98% down to 50microns.

Find out more about the use of our systems for Alluvial or Placer Mining, Hard Rock gold recovery, concentration of a broad range of minerals, gemstone recovery and lead remediation of shooting ranges.

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These flexible modular plants are engineered to deliver super-efficient, environmentally friendly recoveries, by cleverly combining Gekkos gravitypre-concentration, flotation andintensive leachtechnologies.

Ores that can beconcentrated by gravityor a combination ofgravityand flotation processes are ideal for modular systems.Pre-concentrationsignificantly reduces energy requirements and lowers the carbon footprint of plant operations.

Gekkos modular systems are used worldwide forfree gold,complex gold, exploration, alluvial or hard rock, anddiamondapplications. Where appropriate, Gekko source and include processing equipment from other suppliers if required.

Typically, modular plants are designed and built by Gekko for a given mine operation with specific requirements. Gekkos innovative core technologies and in-house process design expertise will produce an agile, effective modular plant. Contact a Gekko engineer today.

TheInLine Pressure Jig (IPJ)recovers a coarse mineral concentrate. As the desired mineral gets concentrated to approximately 5% of the total mass, the standard practice of cyanide leaching 100% of the ore is eliminated.

This 5% ore is treated with cyanide in Gekkos proprietary high-performanceInLine Leach Reactor (ILR)for superiorgold recovery. The ILR reduces the consumption and environmental impact of whole ore cyanidation.

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Our dedicated team of geologists and engineers bring decades of international mining industry experience, spanning the full mining cycle: from project generation and exploration through mining, mineral processing, and reclamation. Backed by an extensive and unparalleled in-house cost database with 35+ years of history, this is a unique combination in the industry that allows us to conduct prefeasibility-level cost estimates and project evaluations with unprecedented reliability and efficiency, allowing you to make better mine project investment decisions.

portable plants, 2-170 tph for alluvial and hard rock mining

EXPLORERand SUPERMINER Portable Plants are exclusively designed, patented and developed by DOVE Equipment & Machinery Co., Ltd. for exploration, pilot operation, small, and medium-scale surface mining.

EXPLORER Portable plants are produced in 18 models, for both Alluvial and Hard Rock mining operations. For application of Alluvial (Placer) deposits of gold, diamonds, other metals and minerals offered in 9 models, capacity range of 10-60 Tons/Hour solids (40-240 m3/Hour slurry). For application of Hard Rock (primary) deposits of gold and other metal we offer 3 models with capacity range of 2-12 Tons/Hour.

SUPERMINER Portable plants are produced in 11 Models, for both Alluvial and Hard Rock mining operations. For application of Alluvial (placer) deposits of gold, diamonds, other metals and minerals it is offered in 9 models, capacity range of 80-170 Tons/Hour solids (320-680 m3/Hour slurry). For application of Hard Rock (primary) deposits of gold and other metal we offer 2 models with capacity range of 25-50 Tons/Hour.

DOVE laboratory will assay your ore samples rapidly and analyze your raw materials and recommend the most efficient processing plant according to the ore specifications, minerals composition, and ore assay results, and your project size and the geologic and topographic conditions of your mine.