Compact design of solid oxide fuel cell power generation system

What is claimed is: 1. An apparatus of power generation using dense solid oxide fuel cells (SOFC), comprising: (a) an integrated thermal device, comprising: (a1) a burner; (a2) an igniter, said igniter activating said burner; (a3) a reformer, said reformer coating an outer surface of said burner; (a4) an air preheater, said air preheater coating an outer surface of said reformer; and (a5) a hot air outlet unit, said hot air outlet unit coating an outer surface of said air preheater; (b) a distributing unit, said distributing unit being connected with said reformer, said air preheater and said hot air outlet unit; (c) a SOFC stack, said SOFC stack being connected with said distributing unit; (d) a heat exchanger, said heat exchanger being connected with said burner; and (e) a holding furnace, said holding furnace coating said integrated thermal device, said distributing unit and said SOFC stack. 2. The apparatus according to claim 1 , wherein said burner comprises an injecting device; a natural gas inlet, said natural gas inlet being connected with said injecting device; a residual fuel inlet, said residual fuel inlet being connected with said natural gas inlet; an oxidant inlet, said oxidant inlet being connected with said injecting device; a porous medium, said porous medium being located on said injecting device; a combusted gas outlet, said combusted gas outlet being connected after said porous medium; an exhaust gas gill, said exhaust gas gill being connected after said porous medium; a guiding channel, said guiding channel being located on an outer surface of said injecting device; a guiding vane, said guiding vane extending around said outer surface of said injecting device; and an exhaust gas outlet, said exhaust gas outlet being connected with said guiding vane. 3. The apparatus according to claim 1 , wherein said igniter has a natural-gas and air inlet. 4. The apparatus according to claim 1 , wherein said reformer comprises a fuel inlet, said fuel inlet introducing a fuel; a preheating tube, said preheating tube preheating said fuel; a distributing ring, said distributing ring distributing said fuel; a diffusion plate, said diffusion plate diffusing said fuel; a fuel reformer, said fuel reformer reforming said fuel; a plurality of reformer outlets; a reformed gas outlet; a first anode gas outlet; and a gas tube outlet. 5. The apparatus according to claim 1 , wherein said air preheater comprises a cathode air inlet; a plurality of air gills; and a preheated air outlet. 6. The apparatus according to claim 1 , wherein said hot air outlet unit comprises a hot air inlet; a plurality of hot air gills; and a cooled air outlet. 7. The apparatus according to claim 1 , wherein said distributing unit comprises a stack of distributing plates and said distributing plates have a first anode gas inlet; a first inlet diversion channel; a first inlet diversion hole; a first distributing channel; two second anode gas inlets; a second anode gas outlet; a first outlet diversion hole; a first outlet diversion channel; a third anode gas outlet; a first cathode gas inlet; a second inlet diversion channel; a second inlet diversion hole; a second distributing channel; two second cathode gas inlets; a first cathode gas outlet; a second outlet diversion channel; a second outlet diversion hole; and a second cathode gas outlet. 8. The apparatus according to claim 1 , wherein said holding furnace is made of an insulation material having low thermal conductivity.