DELKOR’s industry-leading jig technology offers a cost-effective solution for separating valuable products from waste material, to produce clean, saleable products.
DELKOR´s Apic Jig technology for separation
Our DELKOR APIC jig is an efficient gravity separation process that separates particles of different densities in a homogenous bed of granular material. Our jigs effectively and efficiently deal with both fine and coarse material, handling an extended range of particle sizes. This results in low operating costs (opex) as our jigs do not require or consume heavy media.
Our jigs are sold as mobile, modular or standalone installations and are supplied as part of a complete package comprising equipment, process know-how, operations knowledge, training & support and key equipment improvements.
Download our DELKOR Apic Jig brochure here.
Some of the areas where our jigs can be employed:
- Washing fine, medium and coarse coal
- Upgrading ferrous ores
- Recovering ferroalloys from slag (FeCr, FeMn, SiMn, FeV, Fe, steel, etc.)
- Concentrating non-metallics (diamonds, industrial minerals, etc.)
- Sorting wastes
Some of the Unique Advantages of our DELKOR APIC Jig
- Lower opex
- Pulse control in the upward stroke can be adjusted from feed variations using Jig Scan
- Jig Scan also measures the jig chamber pulse velocity in order to improve set-up and maintenance of good pulse characteristics
- High separation densities and throughput
- Higher yields of concentrate
- Less maintenance and less sensitive to water quality
- Less sensitive to feed variations
- Uniquely designed hydraulic discharge gate provides a smooth discharge of product
- Gate control provides a smooth discharge and reduced "back mixing”
- Exhaust control provides a controlled suction - recovery of fines
- Easy to restart
- Improved operator friendliness
DELKOR APIC Jig and Jig Scan
Our under bed air-pulsed APIC Jig can also be equipped with Jig Scan in order to further enhance performance and ease of operation. Jig Scan is a fully integrated automatic jig control system which:
- Automatically raises an alarm if separation efficiency drops
- Automatically sequences start-ups and shut downs so as to to optimize production
- Reduces or eliminates much of the operator time and attention needed for efficient jig operation
- Provides improved control over product quality
- Provides higher yields of “on-specification” product
Jig Scan has been used industrially with great success in the coal, ferrous ores and waste industries. It is supplied exclusively with new DELKOR APIC Jigs.
DELKOR is a world leader in advanced process models for jig design, sizing and scaling, based on batch test work. We boast an impressive reference list of over 50 jig installations in most major mineral producing regions.
Value for Money
- Cost-effective solution for separating valuable products from waste material so as to produce clean, saleable products
- Low operational costs - no requirement or consumption of heavy-media
- Mobile, modular or standalone operations
- We design, fabricate and supply a wide-range of jigs that effectively and efficiently deal with both fine and coarse material and handle a wide-range of particle sizes
- Our jigs are supplied as part of a complete package comprising of equipment, process know-how, operations knowledge, training and support and key equipment improvements
- We boast an impressive reference of more than 50 jig installations covering various commodities across all major mining geographies
- We develop advanced process models for jig design, sizing and scaling, based on batch test work
If you wish to hear more please contact us!Read More
Download DELKOR Apic Jigs Brochure
Customer Project name Jayalaxmi Minerals Karnataka 2011
Largest jig in the iron ore beneficiation industry in India
A DELKOR APIC jig was supplied as part of a contract to provide plant engineering for the complete crushing, screening and jigging plant for iron ore beneficiation. The jig, was at the time of the contract, the largest in the iron ore beneficiation industry in India, and is an important reference for 4 m wide APIC jigs.
The project scope covered the supply of a DELKOR APIC jig capable of handling three independent size ranges of material. The jig was equipped with state-of-the-art control systems able to treat any material size range without any adjustments to the jig. The jig was provided as part of Jayalaxmi Minerals' greenfield project to establish a beneficiation plant with an annual throughput of 1.2 mtpa, converting low grade (<56 % grade Fe) to high grade iron ore (>60 % Fe) with 8 to 10 % grade up gradation and 65 % to 70 % recovery.
4 M wide with 3 Compartments and 2 Gates Three independent feed sizes: 3 mm to 8 mm, 5 mm to 20 mm & 10 mm to 40 mm Customer Project name ACB India 2005
APIC jig in one of the largest coal washeries in India
A jigging plant incorporating a 300 t/h coarse coal APIC jig and bucket elevator was commissioned for ACB at the Dipka Mine and was the second 300 t/h APIC jig supplied to ACB in that year.
The jigging facility was installed at the core of a new expansion phase at the washery. The jig was manufactured and assembled by DELKOR in India. Some of the key components of the plant, mainly the control system, were imported from South Africa.
The modular nature of the facility enabled the washery personnel to easily undertake the assembly. The plant was commissioned by a team comprising engineers from DELKOR, the South African minerals research institute Mintek, and plant operators from the mine, and took only a few weeks.
The coal washery at the mine is one of the largest in India, processing 10 million t/yr of coal using gravity separation techniques. The run-of-mine coal comes from the nearby Gevra - Dipka open-cast mining complex, Asia’s largest mine of this type.
300 t/h Coarse coal
Belt Linear ScreensThe DELKOR belt linear screen is primarily suited to scalping coarse oversize or trash material from process slurries. Vacuum assisted operation is available as an enhanced option.
Flotation Cells - Suspension of SolidsDELKOR BQR flotation cells achieve optimum operation through purpose-designed levels of solids suspension, air rate adjustment, easy froth-cone positioning and a stable pulp-froth interface.