Method of preparing lithium sulfide

What is claimed is: 1 . A method of preparing lithium sulfide, the method comprising: sequentially arranging a solid sulfur layer and a lithium source layer in a reactor; injecting a gas into the reactor in a single direction to obtain a lithium sulfide-containing product; dissolving the lithium sulfide-containing product in an anhydrous solvent to form a lithium sulfide-containing solution; and separating lithium sulfide from the lithium sulfide-containing solution. 2 . The method for preparing lithium sulfide according to claim 1 , wherein the gas is injected into one end of the reactor and sequentially passes through the solid sulfur layer first and the lithium source layer second. 3 . The method for preparing lithium sulfide according to claim 1 , wherein the lithium source layer comprises at least one of lithium hydroxide, lithium hydroxide hydrate, lithium oxide and lithium oxide hydrate. 4 . The method for preparing lithium sulfide according to claim 3 , wherein a lithium source included in the lithium source layer is recovered from a waste cathode material of a lithium secondary battery. 5 . The method for preparing lithium sulfide according to claim 1 , wherein a ratio of the total mole number of lithium atoms included in the lithium source layer to the total mole number of sulfur atoms included in the solid sulfur layer is 1 to 3. 6 . The method for preparing lithium sulfide according to claim 1 , wherein the gas does not include oxygen and moisture. 7 . The method for preparing lithium sulfide according to claim 1 , wherein the gas includes nitrogen, hydrogen or a nitrogen-hydrogen mixed gas. 8 . The method for preparing lithium sulfide according to claim 7 , wherein the gas includes the nitrogen-hydrogen mixed gas, and a volume ratio of nitrogen in the nitrogen-hydrogen mixed gas is 30 to 100% by volume. 9 . The method for preparing lithium sulfide according to claim 1 , wherein a reaction temperature in the reactor is 300 to 500° C. 10 . The method for preparing lithium sulfide according to claim 1 , wherein a reaction pressure in the reactor is 0.1 to 5 bar. 11 . The method for preparing lithium sulfide according to claim 1 , wherein the anhydrous solvent includes a solvent having a moisture content of 0.5% or less. 12 . The method for preparing lithium sulfide according to claim 1 , wherein the anhydrous solvent includes at least one of anhydrous ethanol, acetone, ethyl acetate, dimethylsulfoxide and dimethylformamide. 13 . The method for preparing lithium sulfide according to claim 1 , wherein the process of separating lithium sulfide from the lithium sulfide-containing solution comprises evaporating and removing the anhydrous solvent. 14 . The method for preparing lithium sulfide according to claim 1 , wherein the reactor comprises a first reactor and a second reactor. 15 . The method for preparing lithium sulfide according to claim 14 , wherein the solid sulfur layer is arranged in the first reactor, and the lithium source layer is arranged in the second reactor, and the gas is supplied from the first reactor to the second reactor to sequentially contact the solid sulfur layer and the lithium source layer. 16 . A method of preparing lithium sulfide, the method comprising: providing a reactor comprising a solid sulfur layer and a lithium source layer spaced apart from each other with the solid sulfur layer positioned upstream from the lithium source layer; sequentially arranging a solid sulfur layer and a lithium source layer in a reactor; injecting a gas feed from a gas supply unit into the reactor in a single direction to pass first through the solid sulfur layer and then second through the lithium source layer to obtain a lithium sulfide-containing product exiting the lithium source layer; dissolving the lithium sulfide-containing product in an anhydrous solvent to form a lithium sulfide-containing solution; and separating lithium sulfide from the lithium sulfide-containing solution.