Availability: | |
---|---|
High Purity Fe3O4 Magnetite Powder
Natural magnetite is provided in the form of fine powder with a particle size of 325 mesh, about 45 microns or less. Natural magnetite is dark black and highly magnetic.
Main applications: coal washing, heavy medium and water treatment
1.oil drilling removal of sulfides and weighting agent:In the drilling for crude oil, water based mud is often used as a drilling fluid. Typically made using compounds like barite and bentonite clays to afford good lubricity, research has looked into other materials which may be beneficial and/or cheaper - but crucially are more tolerant to the high pressure, high temperature drilling processes of today. Typically for such applications, a denser material is used; a mud with higher specific gravity. Barite can be replaced with magnetite in a 1:1 fashion and is effective. Research showed that density could be increased from 14.5 to 14.9 ppg (i.e. greater density with a lower amount of solids, reducing costs). A flat rheology was observed and a superior viscosity-elasticity profile was noted, meaning better cleaning of holes in the drilling equipment. Filtration properties were also enhanced compared to barite, with a near 30% less filtrate volume and a 16% less weight. Magnetite can also be used in the nanoparticle form for bespoke drilling fluids, with yield stress and temperature having a linear relationship. Furthermore, in oil and gas drilling, magnetite can aid in the removal of sulfides. In a similar vein to the density enhancing properties in water based mud, magnetite can be used analogously as a weighting agent in the cementing of the extraction wells
2.catalysis of ammonia and hydrocarbons: the best-known application of magnetite black sand is in the industrial scale synthesis of ammonia through the Haber-Bosch (H-B) process . The H-B process produces ammonia by converting atmospheric nitrogen with hydrogen under elevated temperatures and pressures, employing a heterogeneous iron catalyst. Magnetite is the primary source material for this. Ground magnetite is partially reduced, relieving it of some of its oxygen, leaving a catalyst bearing a magnetite core with an outer shell of ferrous oxide . The advantage of this catalyst comes in its porosity, and thus it is a highly active, high surface area material. Ammonia is a major chemical feedstock and is a key component in the manufacture of fertiliser, and the use of magnetite in H-B provides an inexpensive and reliable catalyst for this globally important process
3.water purification and water treatment:Magnetite is a naturally occurring iron-oxide mineral with applications in several industries,One use is in water purification: in high gradient magnetic separation, magnetite nanoparticles introduced into contaminated water will bind to the suspended particles (solids, bacteria, or plankton, for example) and settle to the bottom of the fluid, allowing the contaminants to be removed and the magnetite particles to be recycled and reused.
Magnetite has been employed extensively in water purification and has been formed into polymeric microspheres alongside styrene and divinylbenzene to produce magnetic ion-exchange resins(24), showing good efficiency at removing toxic cobalt and nitrate contaminants from water. In a plant in Australia, micron-scale magnetite has been used as a reagent in purification and clarification of water, producing a potable supply from low quality ground and surface water. The issues relating to a ‘loaded’ reagent being hard to remove were resolved by the magnetic magnetite nature . Chlorinated hydrocarbons can be removed from water via bacteria that have been adsorbed onto magnetite, which can then be removed using a magnetic field.
In terms of the most highly advanced filtration processes for the most highly contaminated water, magnetite is often used alongside other compounds. Total organic carbon residues can be reduced by almost two thirds in acidic waste water in just two hours by the presence of magnetite as a co-catalyst alongside conventional iron oxide, at ambient temperature. Additionally, when combined with related compound hematite, magnetite can effect the removal of 75% of organic carbon residues in cosmetic plant wastewater, with the added benefit of almost completely removing dissolved nitrogen species too.
Further uses of magnetite in filtration applications include the removal of hexavalent uranium from soil when accompanied by metal reducing bacteria Ochrobactrum, where the presence of magnetite has been shown to aid the immobilisation of the uranium - with significantly less removability reported without the magnetite present. Magnetite has been shown to aid the anaerobic digestion of dairy wastewater.
4.Medicinal Uses: Magnetite has found wide use in the medicinal field. DNA has been shown to be extracted from kernels of maize vie the use of magnete and magnetite-silica composites, both performing better than commercially available DNA extraction kits. The extraction using magnetite black oxide was high yielding and resulted in extracts that were suitable for use in enzyme digestion and the polymerase chain reaction process. 5 micron scale magnetite powder has been used as a dye in stained gelatine for the assay of proteolytic activity - the breakdown of proteins into smaller polypeptides and/or amino acid Magnetic Resonance Imaging (MRI) contrast agents are often reported as high efficacy applications for magnetite due to their superparamagnetic properties - they become magnetic inside the strong magnetic field of the MRI instrument, but loose this magnetism when the field is no longer applied, and are highly detectable
5.Energy Uses:Whilst magnetite has shown its ability in fossil fuel extraction, there are some examples of it finding use in the production of usable energy in a more sustainable manner. In a microbial fuel cell, usable fuel is produced when electricity is passed through a specific bacteria rich electrolyte, in a similar way to hydrogen is produced by electrolysis. It has been found that magnetite addition to such a system offers excellent performance for the oxygen transport steps, leading to overall greater system efficiency. Additionally, the magnetite present is also effective at removing sewage sludge - should the system be using contaminated water. Magnetite immobilized lipases have been shown as effective producers of biodiesel fuel, just like other lipases. Critically however, fungal and non-probiotic sources of lipases are associated with harmful byproducts, whilst probiotic lipases are not known for their stability and thus efficiency compared to their fungal counterparts. The immobilization of these probiotic lipases on magnetite renders a superior performing system.
Product Packing
25kg/bag, 1000kg/bag, the package can be customized by buyer's requirements.
Technical Data Sheet
Test items | Unit | Test results |
Fe3O4 | % | 99.45 |
Magnetic material content | % | 97.56 |
AIC | % | 0.15 |
Apparent density | g/cm3 | 5.02 |
TFe | % | 71.99 |
SiO2 | % | 0.15 |
Al2O2 | % | 0.27 |
CaO | % | 0.04 |
P | % | 0.007 |
S | % | 0.008 |
Mn | % | 0.020 |
Pb | % | <0.0030 |
K2O | % | 0.0084 |
Na2O | % | <0.0067 |
Ca | % | 0.029 |
Zn | % | <0.0010 |
TiO2 | % | 0.067 |
H₂O | % | 0.78 |
+325 mesh | % | 3.70 |
+400 mesh | % | 38.30 |
-400 mesh | % | 58.00 |
High Purity Fe3O4 Magnetite Powder
Natural magnetite is provided in the form of fine powder with a particle size of 325 mesh, about 45 microns or less. Natural magnetite is dark black and highly magnetic.
Main applications: coal washing, heavy medium and water treatment
1.oil drilling removal of sulfides and weighting agent:In the drilling for crude oil, water based mud is often used as a drilling fluid. Typically made using compounds like barite and bentonite clays to afford good lubricity, research has looked into other materials which may be beneficial and/or cheaper - but crucially are more tolerant to the high pressure, high temperature drilling processes of today. Typically for such applications, a denser material is used; a mud with higher specific gravity. Barite can be replaced with magnetite in a 1:1 fashion and is effective. Research showed that density could be increased from 14.5 to 14.9 ppg (i.e. greater density with a lower amount of solids, reducing costs). A flat rheology was observed and a superior viscosity-elasticity profile was noted, meaning better cleaning of holes in the drilling equipment. Filtration properties were also enhanced compared to barite, with a near 30% less filtrate volume and a 16% less weight. Magnetite can also be used in the nanoparticle form for bespoke drilling fluids, with yield stress and temperature having a linear relationship. Furthermore, in oil and gas drilling, magnetite can aid in the removal of sulfides. In a similar vein to the density enhancing properties in water based mud, magnetite can be used analogously as a weighting agent in the cementing of the extraction wells
2.catalysis of ammonia and hydrocarbons: the best-known application of magnetite black sand is in the industrial scale synthesis of ammonia through the Haber-Bosch (H-B) process . The H-B process produces ammonia by converting atmospheric nitrogen with hydrogen under elevated temperatures and pressures, employing a heterogeneous iron catalyst. Magnetite is the primary source material for this. Ground magnetite is partially reduced, relieving it of some of its oxygen, leaving a catalyst bearing a magnetite core with an outer shell of ferrous oxide . The advantage of this catalyst comes in its porosity, and thus it is a highly active, high surface area material. Ammonia is a major chemical feedstock and is a key component in the manufacture of fertiliser, and the use of magnetite in H-B provides an inexpensive and reliable catalyst for this globally important process
3.water purification and water treatment:Magnetite is a naturally occurring iron-oxide mineral with applications in several industries,One use is in water purification: in high gradient magnetic separation, magnetite nanoparticles introduced into contaminated water will bind to the suspended particles (solids, bacteria, or plankton, for example) and settle to the bottom of the fluid, allowing the contaminants to be removed and the magnetite particles to be recycled and reused.
Magnetite has been employed extensively in water purification and has been formed into polymeric microspheres alongside styrene and divinylbenzene to produce magnetic ion-exchange resins(24), showing good efficiency at removing toxic cobalt and nitrate contaminants from water. In a plant in Australia, micron-scale magnetite has been used as a reagent in purification and clarification of water, producing a potable supply from low quality ground and surface water. The issues relating to a ‘loaded’ reagent being hard to remove were resolved by the magnetic magnetite nature . Chlorinated hydrocarbons can be removed from water via bacteria that have been adsorbed onto magnetite, which can then be removed using a magnetic field.
In terms of the most highly advanced filtration processes for the most highly contaminated water, magnetite is often used alongside other compounds. Total organic carbon residues can be reduced by almost two thirds in acidic waste water in just two hours by the presence of magnetite as a co-catalyst alongside conventional iron oxide, at ambient temperature. Additionally, when combined with related compound hematite, magnetite can effect the removal of 75% of organic carbon residues in cosmetic plant wastewater, with the added benefit of almost completely removing dissolved nitrogen species too.
Further uses of magnetite in filtration applications include the removal of hexavalent uranium from soil when accompanied by metal reducing bacteria Ochrobactrum, where the presence of magnetite has been shown to aid the immobilisation of the uranium - with significantly less removability reported without the magnetite present. Magnetite has been shown to aid the anaerobic digestion of dairy wastewater.
4.Medicinal Uses: Magnetite has found wide use in the medicinal field. DNA has been shown to be extracted from kernels of maize vie the use of magnete and magnetite-silica composites, both performing better than commercially available DNA extraction kits. The extraction using magnetite black oxide was high yielding and resulted in extracts that were suitable for use in enzyme digestion and the polymerase chain reaction process. 5 micron scale magnetite powder has been used as a dye in stained gelatine for the assay of proteolytic activity - the breakdown of proteins into smaller polypeptides and/or amino acid Magnetic Resonance Imaging (MRI) contrast agents are often reported as high efficacy applications for magnetite due to their superparamagnetic properties - they become magnetic inside the strong magnetic field of the MRI instrument, but loose this magnetism when the field is no longer applied, and are highly detectable
5.Energy Uses:Whilst magnetite has shown its ability in fossil fuel extraction, there are some examples of it finding use in the production of usable energy in a more sustainable manner. In a microbial fuel cell, usable fuel is produced when electricity is passed through a specific bacteria rich electrolyte, in a similar way to hydrogen is produced by electrolysis. It has been found that magnetite addition to such a system offers excellent performance for the oxygen transport steps, leading to overall greater system efficiency. Additionally, the magnetite present is also effective at removing sewage sludge - should the system be using contaminated water. Magnetite immobilized lipases have been shown as effective producers of biodiesel fuel, just like other lipases. Critically however, fungal and non-probiotic sources of lipases are associated with harmful byproducts, whilst probiotic lipases are not known for their stability and thus efficiency compared to their fungal counterparts. The immobilization of these probiotic lipases on magnetite renders a superior performing system.
Product Packing
25kg/bag, 1000kg/bag, the package can be customized by buyer's requirements.
Technical Data Sheet
Test items | Unit | Test results |
Fe3O4 | % | 99.45 |
Magnetic material content | % | 97.56 |
AIC | % | 0.15 |
Apparent density | g/cm3 | 5.02 |
TFe | % | 71.99 |
SiO2 | % | 0.15 |
Al2O2 | % | 0.27 |
CaO | % | 0.04 |
P | % | 0.007 |
S | % | 0.008 |
Mn | % | 0.020 |
Pb | % | <0.0030 |
K2O | % | 0.0084 |
Na2O | % | <0.0067 |
Ca | % | 0.029 |
Zn | % | <0.0010 |
TiO2 | % | 0.067 |
H₂O | % | 0.78 |
+325 mesh | % | 3.70 |
+400 mesh | % | 38.30 |
-400 mesh | % | 58.00 |