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This Special Issue of Minerals presents recent, select studies that highlight advances in the fields of hydro- and biohydrometallurgy. It aims to attract the interest of readers and especially of young scientists and students in this fascinating scientific discipline.
n/a --- counter-current leaching --- metal extraction --- slag --- low-grade saprolitic laterite --- agglomeration --- bioleaching --- white metal --- precipitation --- iodide --- seawater --- reducing agent --- chloride --- chalcopyrite --- pyrite–arsenopyrite galvanic pair --- frontier orbital methods --- acid media --- bottom ash --- phosphorus --- manganese nodules --- waste reuse --- galvanic effect --- gold diiodide --- municipal solid waste incineration --- jarosite --- column leaching --- secondary mining --- iodide-oxidizing bacteria --- leaching --- primary sulfide copper --- heap leaching --- electrochemical --- optimization of parameters --- chloride ion --- reductive mineral dissolution --- tailings --- curing --- acid leaching --- secondary products --- uranium --- ferric ion --- Acidithiobacillus --- limonitic laterites --- iron reduction --- fluorapatite --- nitrate --- gold --- phosphate mineral --- purification --- iodine --- nickel --- sodium sulfite --- pregnant leach solution --- copper sulfide --- sulphuric acid --- laterites --- REE --- pretreatment --- triiodide --- laterite --- pyrite-arsenopyrite galvanic pair
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The proposed book is a compilation of a Special Issue on “Leaching of Rare Earth Elements from Various Sources”, published in the journal Minerals in 2020. There are 10 papers contributed by experts in the area, and these can be grouped into four categories: leaching from low-grade ores including coal, clay, soil, and red mud; pre-treatment and leaching; recycling; and precipitation and nano-hydrometallurgy. Although these articles are available in the journal Minerals, it is convenient to compile the most valuable information into a book form so that scholars and industrial practitioners can have easy access to it when they need it where the Internet is not easily available. I strongly believe that the book on a very specialized topic matter such as modern extraction technologies of rare earth elements will contribute greatly to the fast-growing industry that needs rare earth elements.
Technology: general issues --- precipitation --- leaching --- complexation --- anion effect --- equilibrium calculation --- rare earth elements --- magnets --- recycling --- recovery --- fluorides --- modelling --- clay minerals --- grain size characteristics --- in situ leaching --- simulated leaching --- ion-absorbed type rare earth ore --- coal --- acid mine drainage --- coal combustion byproducts --- kinetics --- apparent activation energy --- rare-earth elements --- scandium --- alumina production --- sinter processes --- red mud --- electrostatic precipitation dust --- alkali leaching --- lanthanide separation --- magnetic nanohydrometallurgy --- complexing nanoparticles --- magnetic nanoparticles --- magnetophoresis --- monazite processing --- urban mining --- REE --- sulfuric acid baking --- caustic digestion --- acid leaching --- water leaching --- coal utilization byproducts --- pregnant leach solution --- underclay --- organic acid --- rare earths --- distribution factor --- selective precipitation --- oxalates --- organic complexes
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The proposed book is a compilation of a Special Issue on “Leaching of Rare Earth Elements from Various Sources”, published in the journal Minerals in 2020. There are 10 papers contributed by experts in the area, and these can be grouped into four categories: leaching from low-grade ores including coal, clay, soil, and red mud; pre-treatment and leaching; recycling; and precipitation and nano-hydrometallurgy. Although these articles are available in the journal Minerals, it is convenient to compile the most valuable information into a book form so that scholars and industrial practitioners can have easy access to it when they need it where the Internet is not easily available. I strongly believe that the book on a very specialized topic matter such as modern extraction technologies of rare earth elements will contribute greatly to the fast-growing industry that needs rare earth elements.
precipitation --- leaching --- complexation --- anion effect --- equilibrium calculation --- rare earth elements --- magnets --- recycling --- recovery --- fluorides --- modelling --- clay minerals --- grain size characteristics --- in situ leaching --- simulated leaching --- ion-absorbed type rare earth ore --- coal --- acid mine drainage --- coal combustion byproducts --- kinetics --- apparent activation energy --- rare-earth elements --- scandium --- alumina production --- sinter processes --- red mud --- electrostatic precipitation dust --- alkali leaching --- lanthanide separation --- magnetic nanohydrometallurgy --- complexing nanoparticles --- magnetic nanoparticles --- magnetophoresis --- monazite processing --- urban mining --- REE --- sulfuric acid baking --- caustic digestion --- acid leaching --- water leaching --- coal utilization byproducts --- pregnant leach solution --- underclay --- organic acid --- rare earths --- distribution factor --- selective precipitation --- oxalates --- organic complexes
Choose an application
The proposed book is a compilation of a Special Issue on “Leaching of Rare Earth Elements from Various Sources”, published in the journal Minerals in 2020. There are 10 papers contributed by experts in the area, and these can be grouped into four categories: leaching from low-grade ores including coal, clay, soil, and red mud; pre-treatment and leaching; recycling; and precipitation and nano-hydrometallurgy. Although these articles are available in the journal Minerals, it is convenient to compile the most valuable information into a book form so that scholars and industrial practitioners can have easy access to it when they need it where the Internet is not easily available. I strongly believe that the book on a very specialized topic matter such as modern extraction technologies of rare earth elements will contribute greatly to the fast-growing industry that needs rare earth elements.
Technology: general issues --- precipitation --- leaching --- complexation --- anion effect --- equilibrium calculation --- rare earth elements --- magnets --- recycling --- recovery --- fluorides --- modelling --- clay minerals --- grain size characteristics --- in situ leaching --- simulated leaching --- ion-absorbed type rare earth ore --- coal --- acid mine drainage --- coal combustion byproducts --- kinetics --- apparent activation energy --- rare-earth elements --- scandium --- alumina production --- sinter processes --- red mud --- electrostatic precipitation dust --- alkali leaching --- lanthanide separation --- magnetic nanohydrometallurgy --- complexing nanoparticles --- magnetic nanoparticles --- magnetophoresis --- monazite processing --- urban mining --- REE --- sulfuric acid baking --- caustic digestion --- acid leaching --- water leaching --- coal utilization byproducts --- pregnant leach solution --- underclay --- organic acid --- rare earths --- distribution factor --- selective precipitation --- oxalates --- organic complexes --- precipitation --- leaching --- complexation --- anion effect --- equilibrium calculation --- rare earth elements --- magnets --- recycling --- recovery --- fluorides --- modelling --- clay minerals --- grain size characteristics --- in situ leaching --- simulated leaching --- ion-absorbed type rare earth ore --- coal --- acid mine drainage --- coal combustion byproducts --- kinetics --- apparent activation energy --- rare-earth elements --- scandium --- alumina production --- sinter processes --- red mud --- electrostatic precipitation dust --- alkali leaching --- lanthanide separation --- magnetic nanohydrometallurgy --- complexing nanoparticles --- magnetic nanoparticles --- magnetophoresis --- monazite processing --- urban mining --- REE --- sulfuric acid baking --- caustic digestion --- acid leaching --- water leaching --- coal utilization byproducts --- pregnant leach solution --- underclay --- organic acid --- rare earths --- distribution factor --- selective precipitation --- oxalates --- organic complexes
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