BOP system of solid oxide fuel cell, solid oxide fuel cell stack module, and method for operating the solid oxide fuel cell

What is claimed is: 1. A balance of plant (BOP) system of solid oxide fuel cells comprising a burner, a reformer, a steam generator, and heat exchangers, wherein the burner, the reformer and the steam generator are laid sequentially on top of each other to transmit the flames and burned gas generated from the burner directly to the reformer and the steam generator disposed sequentially on top of the burner, and the heat exchangers introduce the flue gas discharged from the steam generator thereinto and preheat the process air to be supplied to cathodes of stacks, and wherein one pair of heat exchangers are disposed on both sides of the stacks and have an outside shape of a vertical plate and an inside shape of a fin type heat exchanger forming a plurality of serpentine flow paths therein. 2. The BOP system of solid oxide fuel cells according to claim 1 , wherein the casings of the burner, the reformer and the steam generator are sealedly laid on top of each other by means of coupling of respective flanges. 3. The BOP system of solid oxide fuel cells according to claim 1 , wherein the burner is an integrated burner which serves as a startup burner for supplying fuel gas upon startup and as an after burner for stopping the supply of the fuel gas and supplying the unburned gas and air supplied from the stacks if the reformer reaches a given temperature or more. 4. The BOP system of solid oxide fuel cells according to claim 1 , wherein the burner has a form of a metal fiber surface combustion burner to perform uniform surface heating. 5. The BOP system of solid oxide fuel cells according to claim 4 , wherein the metal fiber surface combustion burner comprises a plurality of air supply nozzle tubes and a plurality of gas supply nozzle tubes repeatedly disposed alternately with a given distance so as to perform uniform surface heating. 6. The BOP system of solid oxide fuel cells according to claim 5 , wherein the metal fiber surface combustion burner further comprises a perforated plate disposed at a separate position by a given distance from the top of the air supply nozzle tubes and the gas supply nozzle tubes so as to prevent a metal fiber from sagging upon combustion and to conduct the mixing between the air and gas. 7. The BOP system of solid oxide fuel cells according to claim 5 , wherein the inlet sides of the air supply nozzle tubes and the gas supply nozzle tubes are connected to an air inlet port and a startup fuel inlet port by means of a manifold. 8. The BOP system of solid oxide fuel cells according to claim 1 , wherein the reformer has a plurality of through holes adapted to perform the heat transmission from the flames and burned gas generated from the burner to the interior of the reformer, while serving as a path supplying the flames and burned gas to the steam generator, not to the interior of the reformer. 9. The BOP system of solid oxide fuel cells according to claim 8 , wherein the reformer comprises: a fuel inlet port formed on one side surface thereof; a steam inlet port formed on one side surface thereof so as to introduce the steam discharged from the steam generator thereinto; and a reformed gas outlet port formed on the other side surface thereof so as to discharge the reformed gas therefrom, one side surface and the other side surface of the reformer having a shape of a cone so that the reformed fuel gas and the steam are uniformly discharged and introduced therefrom and thereinto. 10. The BOP system of solid oxide fuel cells according to claim 9 , wherein the lower plate of the reformer with respect to the burner is formed of an Inconel plate, and the through holes are formed of Inconel tubes. 11. The BOP system of solid oxide fuel cells according to claim 9 , wherein the reformer further comprises a catalyst inlet port formed for filling catalysts thereinto, and after filling the catalysts, the catalyst inlet port is sealed with a male connector sealing device. 12. The BOP system of solid oxide fuel cells according to claim 1 , wherein the steam generator has flue gas outlet ports formed to discharge the burned gas transmitted from the burner therethrough, and the discharged flue gas is supplied to the heat exchangers and used for preheating the process gas to be supplied to the stacks. 13. The BOP system of solid oxide fuel cells according to claim 12 , wherein the steam generator comprises: at least two or more water inlet ports; coil-shaped evaporation tubes having the corresponding number to the number of water inlet ports and extended from the water inlet ports in such a manner as to be passed through the interior of the steam generator; and a steam outlet port at which the outlet sides of the evaporation tubes are collected to one in such a manner as to be extended to the outside of the steam generator, the steam outlet port being adapted to discharge the steam generated in the interior of the steam generator therethrough. 14. The BOP system of solid oxide fuel cells according to claim 1 , wherein each heat exchanger comprises a flue gas inlet port formed on the upper portion of the opposite side surface of each heat exchanger to the stacks and a plurality of process air outlet ports formed on the lower portion of the side surface contacted with the stacks.