Solid precipitation apparatus and solid precipitation process

The invention claimed is: 1. A solid precipitation apparatus, comprising: a housing; an inlet for a stream that comprises a solvent and a solute; a discharging outlet; a support disposed in an inner chamber of said housing; and an inner member disposed in the inner chamber of said housing, wherein said support comprises solid particles, and said inner member comprises a hollow tube substantially coaxial with a central axis of said housing, an upper end and a lower end of said hollow tube are open, and a baffle is disposed above said hollow tube, and wherein said hollow tube comprises an upper straight tube section and a lower conical diffusion section, a first gap is disposed between the internal wall of said housing and the external wall of said hollow tube, a second gap is disposed between said baffle and the upper edge of said hollow tube, and a sixth gap is disposed between said baffle and the internal wall of said housing. 2. The solid precipitation apparatus of claim 1 is configured to be operated under a supercritical condition. 3. The solid precipitation apparatus of claim 1 , wherein said solid particles are selected from at least one of crystal seeds, inorganic particles, silica sphere, sand, quartz sand, refractory material particles, and solid waste. 4. The solid precipitation apparatus of claim 1 , wherein the used amount (by volume) of said solid particles is ¼- 3/4 of the total volume of the inner chamber of said housing, and/or, the equivalent diameter of said solid particles is 0.1-1.0 mm, and/or, the specific surface area of said solid particles is 100-300 m 2 /g, and/or, the bulk density of said solid particles is 0.6-0.7 g/cm 3 . 5. The solid precipitation apparatus of claim 1 , wherein said umbrella cap is coaxial with said hollow tube, and has a cone angle of 30-150°, and/or, the outer diameter of said straight tube section of said hollow tube is 60-80% of the inner diameter of said housing, and/or, the height of the straight tube section of said hollow tube is 10-30% of the height of the inner chamber of said housing, and/or, the maximum outer diameter of said conical diffusion section of said hollow tube is 75-90% of the inner diameter of said housing, and/or, the height of said conical diffusion section of said hollow tube is 3-10% of the height of the inner chamber of said housing, and/or, the height of said baffle is 5-20% of the height of the inner chamber of said housing. 6. The solid precipitation apparatus of claim 1 , further comprising a guide structure disposed around the internal wall of said housing, said guide structure is disposed about the inner chamber of said housing to form a channel that is open at the top and bottom, said guide structure is disposed below said hollow tube and above said stream inlet, a third gap is disposed between said guide structure and the lower edge of said hollow tube, and/or, said guide structure is substantially coaxial with the central axis of said housing, and/or, said guide structure is disposed in the upper part of the inner chamber of said housing. 7. The solid precipitation apparatus of claim 1 , wherein said stream inlet is located at the bottom or the lower part of said housing, the structure of said stream inlet is suitable for spraying said stream into the inner chamber of said housing, and/or, said discharging outlet is located at the top or the upper part of said housing, and/or, the ratio of the height of the inner chamber of said housing (the unit is m) to the inner diameter (the unit is m) is 7-17, and/or, the inner diameter of said guide structure is 60-80% of the inner diameter of said housing, and/or, the height of said guide structure is 5-15% of the height of the inner chamber of said housing. 8. The solid precipitation apparatus of claim 1 , further comprising a support charge inlet and a support discharging outlet, and/or, said support charge inlet is located at the top or the upper part of said housing, and/or, said support discharging outlet is located at the bottom of said housing. 9. The solid precipitation apparatus of claim 1 , further comprising a hot-agent inlet, said hot-agent inlet is located at the bottom or the lower part of said housing, the structure of said hot-agent inlet is fit for the hot-agent to spray into the inner chamber of said housing, and/or, said hot-agent inlet is located above or below said stream inlet. 10. The solid precipitation apparatus of claim 9 , further comprising an inner tube, said hot-agent inlet is located at the bottom of said housing, a fourth gap disposed between the internal wall of said housing and the external wall of said inner tube, a fifth gap disposed between the lower edge or the internal wall of said inner tube and said hot-agent, said fifth gap is in communication with said fourth gap and the inner space of said inner tube, said inner tube has such a configuration that said hot-agent imported from said hot-agent inlet substantially wholly enters the inner space of said inner tube, said stream inlet is disposed in said fourth gap and below the upper edge of said inner tube, and/or, the space of the inner chamber of said housing located below the upper edge of said inner tube is referred to as the buffer zone, then said buffer zone is 20-60% of the total volume of the inner chamber of said housing, and/or, the structure of said hot-agent inlet is a gas distributor, and said inner tube is located above said gas distributor or contains said gas distributor, both are partitioned by said fifth gap, and/or, said inner tube is located below said guide structure, and/or, said stream inlet is 100-500 mm lower than the upper edge of said inner tube in the vertical direction, and/or, the outer diameter of said inner tube is 60-80% of the inner diameter of said housing, and/or, the height of said inner tube is 20-60% of the height of the inner chamber of said housing, and/or, said inner tube is disposed in the lower part of the inner chamber of said housing. 11. A solid precipitation process comprising: passing a stream containing a solute and a solvent into the solid precipitation apparatus of claim 1 to cause at least a part of the solute to be deposited on said support disposed in the inner chamber of said housing. 12. The solid precipitation process of claim 11 , wherein said stream, before entering said solid precipitation apparatus, is kept at a subcritical state, and/or, the temperature of said support is higher than the supercritical temperature of said solvent, and/or, a support is added to the inner chamber of said housing, and the temperature of said support is higher than the supercritical temperature of said solvent, and/or, said support and said stream are in such a proportion that after mixing them, the temperature of said stream reaches or exceeds the supercritical temperature of said solvent. 13. The solid precipitation process of claim 11 , wherein the operation conditions for the inner chamber of said housing include: the operation pressure is 23-35 MPaG, the operation temperature is 350-650° C., the stream residence time is 10-1800 seconds, and the space velocity is 1.5-270 h −1 . 14. The solid precipitation process of claim 11 , further comprising adding a hot-agent to the inner chamber of said housing, and said hot-agent is used in such an amount that said stream, after entering the inner chamber of said housing, forms the supercritical state, and/or, said stream is a salt-containing wastewater or a high salinity, said hot-agent is an oxidizing gas, and/or, said hot-agent and said stream are in such a proportion that after mixing them, the temperature of said stream reaches or exceeds the supercri