Method for efficiently preparing ferrate based on nascent interfacial activity

What is claimed is: 1. A high efficiency preparation method for ferrate based on activity in nascent state interface, characterized in that, the high efficiency preparation method for ferrate based on activity in nascent state interface comprises the steps of: (a) adding solid iron salt to a first alkaline solution with a pH of 5˜9 for hydrolysis and producing an iron solution in nascent state with an equivalent concentration of iron of 0.0001˜1 mol/L; (b) measuring and obtaining 5˜100 mL of the iron solution in nascent state from step (a), adding an oxidizing agent based on a molar ratio of the iron in nascent state and the oxidizing agent at 1:0.1˜20 and mixing the oxidizing agent with the iron solution in nascent state to obtain a mixture; (c) mixing 5˜100 mL second alkaline solution 0.2˜70 g alkaline granules with a stabilizing agent, wherein the second alkaline solution has a concentration of 0.1˜16 mol/L; and (d) under the condition of 5° C.˜60° C., adding the product obtained from step (c) to the mixture obtained from the step (b); stirring and mixing for 0.1˜30 min to form an intermediate solution; allowing the intermediate solution to turn purplish black color completely and then process solid-liquid separation by centrifugation or filtration to obtain a ferrate solution, wherein a molar ratio of the stabilizing agent in the step (c) and the iron in nascent state in the step (b) is 1:0.1˜10. 2. The high efficiency preparation method for ferrate based on activity in nascent state interface according to claim 1 , characterized in that, in the step (a), the iron salt is one or more of the group consisting of: ferric nitrate, ferrous nitrate, ferric sulfate, ferrous sulfate, ferrous chloride and ferric chloride; in the step (a), the first alkaline solution is one or more of the group consisting of: sodium phosphate, disodium hydrogen phosphate solution, sodium aluminate, sodium borate, sodium acetate, sodium bicarbonate solution, sodium carbonate solution, sodium silicate solution, potassium carbonate solution and potassium bicarbonate solution; in the step (b), the oxidizing agent is one or more of the group consisting of: perchloric acid, peracetic acid, sodium persulfate, potassium persulfate, potassium monopersulfate, sodium hypochlorite, potassium hypochlorite and ozone; in the step (c), the alkaline granules is one or more of the group consisting of: potassium hydroxide and sodium hydroxide; in the step (c), the second alkaline solution is one or more of the group consisting of: potassium hydroxide solution and sodium hydroxide solution; in the step (c), the stabilizing agent is one or more of the group consisting of: sodium perchlorate, sodium carbonate, sodium hydrogen carbonate, potassium carbonate, potassium bicarbonate, sodium pyrophosphate, peracetic acid, sodium hypochlorite, potassium hypochlorite and sodium phosphate.