vertical ring pulsating high gradient magnetic separator,a3. benefication equipment
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the latest application of slon vertical ring and pulsating high-gradient magnetic separator - sciencedirect
The SLon vertical ring and pulsating high-gradient magnetic separator (SLon VPHGMS) utilizes the combined force field of magnetism, pulsating fluid and gravity to continuously beneficiate fine weakly magnetic minerals. It is equipped with a unique pulsating mechanism and possesses the advantages of a large beneficiation ratio, high recovery, and a matrix that does not easily clog. The latest industrial application of the SLon VPHGMS is described in this paper.
electromagnetic vertical ring high gradient magnetic separator market size, analysis by manufacturers, opportunities, challenges, drivers, growth, countries, revenue, and forecast 2021 to 2027 - marketwatch
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To view the original version on The Express Wire visit Electromagnetic Vertical Ring High Gradient Magnetic Separator Market Size, Analysis by Manufacturers, Opportunities, Challenges, Drivers, Growth, Countries, Revenue, and Forecast 2021 to 2027
removing silica and alumina from limonite using wet high gradient magnetic separator | springerlink
Removing alumina and silica from the limonite by wet high gradient magnetic separator was conducted to elevate iron grade of limonite which is based on the investigation of mineralogy of the ore. The results show that alumina exists mainly in the form of kaolinite and silica exists mainly in silicate, which mainly occurs with a size below 0.074 mm. The vertical ring pulsating high gradient magnetic separator was adopted to upgrade the limonite less than 0.074mm, under the conditions of pulp concentration of 20%, swivel rotational speed of 2r/min, pulsating speed of 300 times per min, roughing magnetic field intensity of 7000Gs and scavenging magnetic field intensity of 5000Gs, the iron grade was up to 57.98% from 52.20%, content of SiO2 and Al2O3 was reduced to 5.15% and 3.11% from 8.51% and 4.48%respectively. The total iron recovery of limonite was 90.80%, removal rate of silica and alumina was 21.69% and 21.59% respectively.
vertically pulsating high gradient magnetic separator - metso outotec
Effectively process fine, weakly-magnetic minerals with the SLon Vertically Pulsating High-gradient Magnetic Separator (VPHGMS). The unit is a wet, high-intensity magnetic separator that uses a combination of magnetic force, pulsating fluid, and gravity to process minerals. The advanced features are incorporated into a design utilizing a unique vertical configuration, jigging action, and special matrix materials to achieve the best results.
Slurry is introduced through slots in the upper yoke to the matrix, which is housed inside the vertical separating ring. The magnetic particles are attracted to the matrix and are then carried outside of the magnetic field where they are subsequently flushed to the magnetic concentrate trough. The non-magnetic or less magnetic particles pass through the matrix through slots in the lower yoke to the non-magnetic collection hoppers.
The ring is arranged in a vertical orientation as opposed to a traditional Jones-type WHIMS, which uses a horizontal carousel. The vertical nature of the carousel allows for reverse flushing, where magnetics flushing in the opposite direction of the feed allows strongly magnetic and/or coarse particles to be removed without having to pass through the full depth of the matrix volume. In addition, the magnetics flushing is accomplished near the top of rotation, a location with a low stray magnetic field to reduce any residual grip on the magnetic particles. The end result is high availability due to minimized matrix plugging.
An actuated diaphragm provides pulsation in the separation zone to assist the separation performance by agitating the slurry and keeping particles in a loose state, minimizing entrapment. This mechanism alsomaximizes the particle accumulation (trapping) on all sides of the rod matrix, creating more usable surfacearea for magnetics collection. A further benefit is to reduce particle momentum, which aids in particlecapture by the applied magnetic force. This leads to improved fine particle collection and separation.
The SLon VPHGMS utilizes a filamentary matrix constructed of steel rods to accommodate various size ranges of feeds. The rods are oriented perpendicular to the applied magnetic field to enable optimum magnetic force to be achieved while minimizing the risk for entrapment of particles, when compared to grooved plates, randomly positioned filaments (wool), or expanded metal sheets.