The present invention relates to a method for recovering lithium from brine, and provides a method for recovering lithium from brine, the method comprising: (a) an impurity removal step of adding a carbonate supply source to brine including lithium, magnesium and calcium to precipitate and remove magnesium and calcium impurities; (b) a pH adjusting step of adding an acid to the brine from which the impurities have been removed, to adjust the pH of the brine; (c) a lithium-aluminum compound recovery step of adding an aluminum supply source to the pH-adjusted brine to recover a lithium-aluminum compound; (d) a lithium sulfate and aluminum oxide formation step of adding the lithium-aluminum compound to a sulfur supply source and calcining same to form lithium sulfate and aluminum oxide; and (e) a lithium sulfate solution yield step of selectively dissolving lithium sulfate from among the formed lithium sulfate and aluminum oxide to yield a lithium sulfate solution.

The present invention relates to a method for recovering lithium from brine, and provides a method for recovering lithium from brine, the method comprising: (a) an impurity removal step of adding a carbonate supply source to brine including lithium, magnesium and calcium to precipitate and remove magnesium and calcium impurities; (b) a pH adjusting step of adding an acid to the brine from which the impurities have been removed, to adjust the pH of the brine; (c) a lithium-aluminum compound recovery step of adding an aluminum supply source to the pH-adjusted brine to recover a lithium-aluminum compound; (d) a lithium sulfate and aluminum oxide formation step of adding the lithium-aluminum compound to a sulfur supply source and calcining same to form lithium sulfate and aluminum oxide; and (e) a lithium sulfate solution yield step of selectively dissolving lithium sulfate from among the formed lithium sulfate and aluminum oxide to yield a lithium sulfate solution.

The present invention relates to a process for the preparation of particulate alumina, the process comprising (i) preparing a mixture comprising water and one or more sources of alumina; (ii) spraying the mixture for forming droplets; (iii) heating the droplets in a non-polar organic solvent system to a specific temperature, to obtain precursor particles; (iv) heating the precursor particles in an aqueous solution to a specific temperature, wherein the pH of said aqueous solution is adjusted to a value in the range of from 12 to 14. Further, the present invention relates to a particulate alumina as obtained and/or obtainable by said process. Yet further, the present invention relates to a particulate alumina having a side crushing strength in the range of from 9 to 25 N/mm and a packed apparent bulk density in the range of from 0.45 to 0.55 g/cm.sup.3 and use thereof.

The present invention relates to a process for the preparation of particulate alumina, the process comprising (i) preparing a mixture comprising water and one or more sources of alumina; (ii) spraying the mixture for forming droplets; (iii) heating the droplets in a non-polar organic solvent system to a specific temperature, to obtain precursor particles; (iv) heating the precursor particles in an aqueous solution to a specific temperature, wherein the pH of said aqueous solution is adjusted to a value in the range of from 12 to 14. Further, the present invention relates to a particulate alumina as obtained and/or obtainable by said process. Yet further, the present invention relates to a particulate alumina having a side crushing strength in the range of from 9 to 25 N/mm and a packed apparent bulk density in the range of from 0.45 to 0.55 g/cm.sup.3 and use thereof.

An iota alumina is produced by a low temperature, simple method. The method for producing an iota alumina has: a reaction step at which solid raw materials including an alkali metal compound, a fluoride, and at least one or more selected from an aluminum compound and aluminum are mixed and heat-treated; and a washing step at which a product generated at the reaction step is charged into a polar solvent.

An iota alumina is produced by a low temperature, simple method. The method for producing an iota alumina has: a reaction step at which solid raw materials including an alkali metal compound, a fluoride, and at least one or more selected from an aluminum compound and aluminum are mixed and heat-treated; and a washing step at which a product generated at the reaction step is charged into a polar solvent.

The invention provides for a method of producing a modified alumina for use in a coating composition, the method being characterised by hydrothermally treating an alumina suspension under specific conditions before and/or after adding an organic modifier. The invention further provides for a modified alumina made according to the method of the invention and to uses of the modified alumina in coating applications including anti-corrosive compositions and adhesive coatings.

The invention provides for a method of producing a modified alumina for use in a coating composition, the method being characterised by hydrothermally treating an alumina suspension under specific conditions before and/or after adding an organic modifier. The invention further provides for a modified alumina made according to the method of the invention and to uses of the modified alumina in coating applications including anti-corrosive compositions and adhesive coatings.