The present disclosure belongs to the technical field of industrial waste solid recycling, and particularly relates to a resource comprehensive utilization process of red mud, fly ash, steel slag and coal gangue solid wastes. By using the resource comprehensive utilization process, Na.sub.2CO.sub.3, O.sub.2 and a reducing agent are added into industrial waste solids for reaction and then molten iron and liquid slag water are separated; a sodium salt is added into the liquid slag water for reaction to obtain a reaction solution and sediment; the reaction solution is successively introduced into a calcium salt precipitation tank, an aluminum salt precipitation tank and a silicic acid tank and then CO.sub.2 is introduced into the above tanks for acidification reaction, respectively, and a calcium salt, an aluminum salt, a silicic acid and an alkaline solution are obtained after filtration in sequence.

The present invention relates to a device and method for continuous recovery of ammonia nitrogen from aluminum ash. The device comprises a reaction kettle, a steam generator, and a feeder. The steam generator and the feeder are both mounted on the reaction kettle. The steam generator delivers steam into the reaction kettle, and the feeder is used to deliver aluminum ash into the reaction kettle. The device further includes an intersection dispersion assembly and a cyclic motion assembly. The intersection dispersion assembly is installed inside the reaction kettle and is used for intersecting and dispersing the steam and aluminum ash. In the present invention, operations are performed in sequence on two dispersion surfaces. Both helical surfaces of the blade are used, which improves space utilization and increases the total dispersion area. Within one cycle, aluminum ash is spread and scraped completely, effectively improving processing efficiency.