FURNACE FOR SOLID FUEL
The present invention refers to relates to solid fuel combustion, more particularly air area and increasing the combustion efficiency improving solid fuel combustion furnace are disclosed. Background information for the present invention the subject matter disclosed parts are reduced not only by the configuration number [...] prior art found each other. If waste of the existing method, such as biomass into solid fuel burning device consisting in inner cylinder and outer cylinder and between the vertical inner when pivotal furnace avoid combustion fuel supplied at the bottom. Fuel height giga relatively uniform molding condition is relatively stable or lower from supply, normally used to fuel directly without pre-processing facility is a non-moldable fuel or various waste when clogging, jamming, for example a door number does not wound lower supply pin is hereinafter for quantitative supply of the difficult point. In addition, due to the part for supplying fuel combustion (hemisphere shape) stacked fuel hemispherical bottom surface to be coated. The fuel and air combustion in the hemispherical surface is contacted and transmit each come in contact with air occurring combustion door pin is point number. And, since it does throughout a wide range fuel combustion capacity per unit area there are limit in the disclosed. In addition, the bottom surface of combustion in the combustion bottom surface level rises to the stator is kept continuously or from being damaged, due to conductive heat transfer to shell shell is installed door number point at the disclosed. And, lower blade bottom surface flooring entrapped combustion the combustion combustion anxiety unburned component thus reduced combustion efficiency and rise of temperature and the lower shell, flooring discharge and first and second waste heat by heat transfer from combustion and cooled to select bottom surface discharge and floor [...] are provided which supplies thermal energy is supplied the turned on. In the present invention refers to said combustion controls at least one of the existing method such as by recognizing a demand or door number are disclosed. As the present invention refers to one side, to increase the combustion efficiency of solid fuel air input beans peripheral surface of the solid fuel combustion path [...] number broadcast receiver. As the present invention refers to one side, to improve the heat efficiency by recycling waste heat generated in a combustion furnace, a continuous furnace and thermal deformation due to temperature rise, solid fuel combustion path number [...] exposing a portion of the broadcast receiver. As one side such as in order to achieve said object, the present invention refers to a combustion chamber; the upper region of said combustion chamber is formed, while air is supplied to an upper inner space in combustion chamber number 1 exhausts perform an air supply; said automobile formed in bottom territory, supported on the interior space of a combustion chamber exhausts direction while air is supplied to an upper air supply number 2; provided to the center portion of said combustion chamber, said number 2 fuel air supply for room air supply for room by fabricating the mixed region said number 1 product has dropped fuel supply is installed under the dialkyl carbonates; including a solid fuel combustion path number [...] substrate. Preferably, number 1 and an air supply, said number 2 on the outside of the combustion chamber air supply at least either side of the driving force in an inward direction and are interconnected with an exhausts while multiple turning can be. Preferably, multiple turning zone is, in the form of at least one upstream guide vane pivoting zone rises to the upper spiral formed up; and, at least one guide vane formed of a downwardly directed spiral form lower slopes down turning zone; can be with. Preferably, the air supply number 1, number 1 number 1 outer plates and central plate number 1 by an air supply means supplied in air euro number 1 number 1 moved up along and turning upward turning zone; and, said number 1 to number 1 [...] end up turning zone and extends upwardly, said number 1 stored in the central plate and said number 1 number 1 moved down along a lower inner air euro turning turning zone number 1 down; with, the air supply said number 2, number 2 power supply modules are stored in the air supply means along a number 2 number 2 number 2 outer plates and inner turning down air euro lower moved down turning zone number 2; can be with. Preferably, number 1 upward pivoting zone is exposed in the form of a central plate between said number 1 outer plates and said number 1 number 1 up and rises to the upper spiral guide vane, said number 1 turning zone is exposed inner plate has a central plate and said number 1 down said number 1 and number 1 in the form of inclined spiral down the lower guide vane, said number 2 down turning zone is exposed in the form of number 2 between said number 2 outer plates and said number 2 with internal spiral guide vane can be tilted lower down. Preferably, the air supply number 1, number 1 power supply modules are stored in the air supply means along a lower number 1 number 1 number 1 outer plates and inner turning down air euro moved down turning zone number 1; with, the air supply said number 2, number 2 power supply modules are stored in the air supply means along a number 2 number 2 number 2 outer plates and inner turning down air euro lower moved down turning zone number 2; can be with. Preferably, the fuel supply section, formed to the center portion of said combustion chamber, through said fuel feed pipe to supply mixed with a solid fuel chambers are formed; and, said number 1 formed between the air supply and air supply and said number 2, said insulating member formed so as to surround the fuel feed pipe; can be with. Preferably, said combustion of solid fuel in a mixing section 1 difference further comprises the remaining drops onto a secondary combustion fuel absorber can be 2. Preferably, fuel loading part is formed on the lower combustion combustion material in which the combustion re-exhaust plunger, the circumferential direction of said inner surface of said combustion chamber while said combustion in the combustion chamber fuel loading part end has fallen into the combustion material burned exhaust line formed apart from each is formed, said combustion re-exhaust worker and, said burned exhaust line mounted above the combustion material can be ejected at least either one side for guiding the lower slant guide; can be further comprises. Preferably, fuel loading and, said accumulated slant guide adapted to absorb thermal energy, said heat exchange fluid flows is installed on a part of a fuel pressure regulation reheat [...]; can be further comprises. In the embodiment of the present invention according to one web plate is inserted, by supplying solid fuel air mixing region of solid fuel turning current input beans peripheral surface increase combustion efficiency equal to or less than. In the embodiment of the present invention the one, to improve the heat efficiency by recycling waste heat generated in a combustion furnace, a continuous furnace and thermal deformation due to temperature rise, and equal to or less can prevent damage. Figure 1 shows a solid fuel combustion path in the embodiment according to the one of the present invention also shown are disclosed. Figure 2 shows a I a-I ' direction cross-sectional drawing of Figure 1 are disclosed. Figure 3 shows a II a-II ' direction cross-sectional drawing of Figure 1 are disclosed. Figure 4 shows a guide vane shown in solid fuel combustion path is implemented also are disclosed. Figure 5 shows a solid fuel combustion path to form shown also by the bed 4 also are disclosed. Figure 6 shows a A and, shown details of the B direction of Figure 4 also are disclosed. Figure 7 shows a solid fuel combustion furnace of the present invention is shown in the embodiment according to another also are disclosed. Figure 8 shows a solid fuel combustion path of the present invention also shown in the embodiment according to the one another are disclosed. Hereinafter, a preferred embodiment of the present invention with reference to the attached drawing shapes described substrate. However, various other forms of the present invention embodiment can be shape, embodiment of the present invention hereinafter described form and not the limited range. In addition, the present invention in the field of the present invention embodiment form are advantageously easier to average knowledge with which to more completely account for the ball number are disclosed. Drawing description more specifically for and apparatus or the like in the shape and size of the elements can be. Hereinafter, with reference to the drawing of the present invention to specifically describe a hole of one in the embodiment according to combustion furnace. The reference also 1, one in the embodiment according to of the present invention combustion include combustion chamber (100), number 1 air supply (200), number 2 air supply (300), a fuel supply section (400) and, additionally fuel loading part (500), a slant guide (600) and, reheat [...] (700) can be a. The reference also 1, combustion include combustion chamber (100) and, said combustion chamber (100) is formed on the upper region of, combustion chamber (100) the interior space of exhausts downwardly while air is supplied to an air supply number 1 (200) on, said combustion chamber (100) formed in bottom territory of, combustion chamber (100) while air is supplied to number 2 exhausts upwards the inner space of the air supply (300) on, said combustion chamber (100) on the central part of the cell gaps, at least said number 1 air supply (200) for room air supply by fabricating said number 2 (300) is installed under the mixed region (D) fuel (F) drops a product swivel current fuel supply (400) can be a. As shown in fig. 2, combustion chamber (100) solid fuel combustion of an inner chamber of a cylindrical member (F) can be. Combustion chamber (100) wall and the furnace can be, combustion chamber (100) heater outlet (110) can be formed. Also 1 and, as shown in also 2, number 1 air supply (200) distribution chamber (100) is formed on the upper region of the combustion chamber (100) in a down line is formed at the upper inner space can be perform air. Number 1 air supply (200) can be arranged in an discharge opening of number 1, number 1 air supply (200) closes a discharge opening formed in the combustion chamber while the furnace bed number 1 (100) at the down-line can be formed in the upper side of the perform. Also as shown in also 1 and 3, an air supply number 2 (300) distribution chamber (100) formed in bottom territory of, combustion chamber (100) supported on a safety line while forming an interior void of a upper upward can be air. Specifically, number 2 air supply (300) of number 2 but a discharge opening arranged in an, number 2 air supply (300) formed by side ejection ports formed on the furnace bed number 2 fuel loading part (500) is formed at the upper direction while supported on ascending impinges up line can be. As shown in fig. 1, a fuel supply section (400) distribution chamber (100) provided to the center portion of, said number 1 air supply (200) for room air supply by fabricating said number 2 (300) dialkyl carbonates (D) (F) is installed under the mixed region a fuel product swivel can be dropped. The, fuel supply section (400) side of supply fuel supply hopper can be provided, the other side end (F) solid fuel combustion chamber (100) can be formed at the reservoir supply. The, air supply nozzles in a number 1 (200) and, air supply number 2 (300) of the mixed air in mixed region associated with (D) can be provided. A fuel supply portion (400) is fed into the solid fuel supplied via (F) (F) has a mixing region having a magnitude in a relatively small solid fuel in combustion and passing through (D), state large sized solid fuel (F) is below the lower fuel loading part (500) can be wound with the clean up. (D) 1 of the present invention mixed region in solid fuel combustion include combustion residual drops onto a secondary combustion 2 (F) difference to fuel loading part (500) can be further comprises. Fuel loading part (500) is said combustion chamber (100) and said number 2 is installed in the air supply (300) formed on the lower side of, said mixing zone (D) residual solid fuel combustion in the combustion loaded (F) can be configured. The, fuel loading part (500) by using a solid fuel (F) is number 2 air supply (300) pivoting stream can be supplied in the combustion is promoted. Fuel loading part (500) has the form shown in the drawing embodiment limited to, combustion chamber (100) the bottom portion of the fuel load (500) can be composed of the concave disclosed. Combustion chamber (100) in a central portion the upper side of the outlet (110) is formed and a high temperature combustion gas is lifted combustion chamber (100) at the center region of the interior space (E) can be raised a single form. Specifically, combustion chamber (100) temperature of combustion gas in the combustion chamber internal space (100) of the center portion of the upper outlet (110) configured to discharged through a combustion chamber while (100) can be formed in the central area the internal space of the ascending air current. And, said number 1 air supply (200) for room air supply by fabricating said number 2 (300) by means of swivel-axis gradient coil in the same direction applied to the combustion chamber (100) can be maintaining the central region of the interior space of effects of the ascending air current. Number 1 air supply (200) and, said number 2 air supply (300) at least either side of the combustion chamber (100) is provided to connect the inner direction on the outside of the driving force can be multiple exhausts while turning region and a throat region. In this way, by forming multiple turning zone, combustion chamber (100) of a high-temperature atmosphere by lengthening its path of movement of air in the inner space of the multi-path while moving pivot zone extends sufficiently preheating a furnace can be supplied for improving combustion efficiency. To one in the embodiment, as shown in fig. 5, number 1 of the present invention include combustion air supply (200) and, said number 2 air supply (300) during said number 1 air supply (200) distribution chamber (100) is provided to connect the inner direction on the outside of the driving force can be multiple exhausts while turning region and a throat region. The, at least combustion chamber (100) formed on the upper region of number 1 air supply (200) by forming multiple swivel zone, high temperature of combustion gas is provided disposed combustion chamber (100) supplied in the upper region of air and combustion gas furnace can be configured to sufficiently heat exchange first shield is smaller. As also shown in five 4, multiple turning zone is formed at least one of upstream turning zone and rises to the upper spiral form of upstream guide vane, at least one guide vane formed of a downwardly directed inclined spiral form the lower region and can be pivoted downward. As shown in fig. 4, number 1 air supply (200) is, number 1 supply means (210), upward turning zone number 1 (230) and, number 1 down turning zone (250) can be with. Number 1 air supply (200) is the of said combustion chamber (100) external tangentially formed inlet passage number 1 (211) supply means for supplying air through the number 1 (210) and, said number 1 supply means (210) number 1 supply air external plate (260) and a central plate number 1 (270) defined by number 1 up air passage (231) while the upward moving along turning upward pivoting zone number 1 (230) and, said number 1 upward pivoting zone (230) number 1 of upward air passage (231) is connected to the distal end of, a central plate said number 1 (270) and inner plate said number 1 (280) defined by number 1 down air passage (251) displaced along lower turning down turning zone number 1 (250) can be with. Number 1 air supply (200) is number 1 air supply (200) comprising an inner wall forming a cylindrical external plate number 1 (260) and, said number 1 external plate (260) combustion chamber (100) are formed apart from each inward direction, upward turning zone number 1 (230) and down pivoting zone number 1 (250) cylindrical number 1 for defining the boundaries of a central plate (270) and, a central plate said number 1 (270) combustion chamber (100) a cylindrical inner plate formed apart from each inward direction of number 1 (280) can be with. External plate number 1 (260), a central plate number 1 (270) and, number 1 inner plate (280) diameter reduction can be cylindrical members. External plate number 1 (260) and a central plate number 1 (270) number 1 between upward pivoting zone (230) can be formed, a central plate number 1 (270) and inner plate number 1 (280) number 1 between down turning zone (250) can be formed. The, central plate number 1 (270) is number 1 upward pivoting zone (230) and down pivoting zone number 1 (250) can be defining the boundaries of. Air supply number 2 (300) is number 2 supply means (310) and, with number 2 [hya direction turn sector can be. Air supply number 2 (300) is the of said combustion chamber (100) external tangentially formed inlet passage number 2 (311) supply means for supplying air through the number 2 (310) and, said number 2 supply means (310) air supplied in external plate number 2 (360) and inner plate number 2 (380) down air passage defined by number 2 (351) displaced along lower turning down turning zone number 2 (350) can be with. Air supply number 2 (300) is number 2 air supply (300) comprising an inner wall forming a cylindrical external plate number 2 (360) and, said number 2 external plate (360) combustion chamber (100) a cylindrical inner plate formed apart from each inward direction of number 2 (380) can be with. External plate number 2 (360) and inner plate number 2 (380) number 2 between down turning zone (350) can be formed. As shown in fig. 6, number 1 upward pivoting zone (230) said number 1 the external plate (260) said number 1 and a central plate (270) exposed in the form of number 1 up between rises to the upper spiral guide vane (233) can be with. Number 1 down turning zone (250) said number 1 is a central plate (270) and inner plate said number 1 (280) in the form of guide vane exposed between the lower inclined spiral down number 1 (253) can be with. Number 2 down turning zone (350) is said number 2 external plate (360) and said number 2 internal plate (380) exposed in the form of inclined spiral guide vane down between the lower number 2 (353) can be with. As shown in fig. 1, number 1 air supply (200) is number 1 supply means (210) and, number 1 down turning zone (250) having, air supply number 2 (300) is number 2 supply means (310) and, down turning zone number 2 (350) can be with. Also as shown in the 2, number 1 air supply (200) is number 1 supply means (210) number 1 supply air external plate (260) number 1 and inner plate (280) defined by number 1 down air passage (251) displaced along lower turning down turning zone number 1 (250) can be with. Number 1 supply means (210) including the combustion chamber (100) external tangentially formed inlet passage number 1 (211) can be supplying air through. Also as shown in the 3, number 2 air supply (300) is number 2 supply means (310) air supplied in external plate number 2 (360) and inner plate number 2 (380) down air passage defined by number 2 (351) displaced along lower turning down turning zone number 2 (350) can be with. Number 2 supply means (310) including the combustion chamber (100) external tangentially formed inlet passage number 2 (311) can supply air through. As shown in fig. 1, number 2 air supply (300) of number 2 but a discharge opening arranged in an, number 2 air supply (300) formed by side ejection ports formed on the furnace bed number 2 fuel loading part (500) direction discharge while fuel loading part (500) to promote combustion of solid fuel (F) can be loaded. And, fuel loading part (500) combustion re-exhaust worker (510) and, which burned exhaust line (530) solid fuel combustion through combustion material (S) (F) oblique guide (600) can be discharge direction. Air supply number 2 (300) formed by pivoting the ejection ports provided on the fuel load concentrated on a number 2 (500) is formed at the upper direction while supported on ascending impinges up line can be. The, number 1 down turning zone (250) is in the form of number 1 rises to the upper spiral down guide vane (253) is formed can be formed of at least one, number 2 down turning zone (350) is in the form of guide vane inclined spiral down the lower number 2 (353) can be formed at least in at least one. To another in the embodiment, as shown in fig. 8, number 1 of the present invention include combustion air supply (200) and, said number 2 air supply (300) distribution chamber (100) is provided to connect the inner direction on the outside of the driving force can be each having multiple exhausts while turning zone. The, number 1 air supply (200) is, combustion chamber (100) external tangentially formed inlet passage number 1 (211) supply means for supplying air through the number 1 (210) and, combustion chamber (100) in an inward direction on the outside of the pivoting zone and multiple number 1 exhausts while driving force and are interconnected, said number 1 multiple turning zone on the furnace bed formed in said combustion chamber (100) with number 1 can be discharged into the interior of the discharge port. The, multiple turning zone is number 1 number 1 upward pivoting zone (230) and, number 1 down turning zone (250) can be with. As shown in fig. 8, number 1 air supply (200) is the of said combustion chamber (100) external tangentially formed inlet passage number 1 (211) supply means for supplying air through the number 1 (210) and, said number 1 supply means (210) number 1 supply air external plate (260) and a central plate number 1 (270) defined by number 1 up air passage (231) while the upward moving along turning upward pivoting zone number 1 (230) and, said number 1 upward pivoting zone (230) number 1 of upward air passage (231) is connected to the distal end of, a central plate said number 1 (270) and inner plate said number 1 (280) defined by number 1 down air passage (251) displaced along lower turning down turning zone number 1 (250) can be with. Number 1 air supply (200) is number 1 air supply (200) comprising an inner wall forming a cylindrical external plate number 1 (260) and, said number 1 external plate (260) combustion chamber (100) are formed apart from each inward direction, upward turning zone number 1 (230) and down pivoting zone number 1 (250) cylindrical number 1 for defining the boundaries of a central plate (270) and, a central plate said number 1 (270) combustion chamber (100) a cylindrical inner plate formed apart from each inward direction of number 1 (280) can be with. As shown in fig. 8, an air supply number 2 (300) is, said cylindrical combustion (100) external tangentially formed inlet passage number 2 (311) supply means for supplying air through the number 2 (310) and, said number 2 supply means (310) air supplied in external plate number 2 (360) and a central plate number 2 (370) defined by upward air passage number 2 (331) while the upward moving along turning upward pivoting zone number 2 (330) and, combustion (100) external tangentially formed inlet passage number 2 (311) supply means for supplying air through the number 2 (310) and, combustion chamber (100) in an inward direction on the outside of the pivoting zone and multiple number 2 exhausts while driving force and are interconnected, said multiple turning zone said number 2 on the furnace bed formed in the combustion chamber (100) with number 2 can be discharged into the interior of the discharge port. The, multiple turning zone is number 2 number 2 upward pivoting zone (330) and down pivoting zone number 2 (350) can be with. As shown in fig. 1, a fuel supply section (400) has said combustion chamber (100) through a middle portion of said mixing zone (D) through (F) solid fuel supplying a supply pipe (410) and, said number 1 air supply (200) said number 2 on air supply (300) is formed between the, said fuel feed pipe (410) formed to surround an insulated member (430) can be with. The fuel feed pipe (410) and a side of supply fuel supply hopper can be installed, the other side end (F) solid fuel combustion chamber (100) into the interior of can be stored in a second buffer. The, air supply nozzles in a number 1 (200) and, air supply number 2 (300) of the mixed air in mixed region associated with (D) can be provided. A fuel supply portion (400) is fed into the solid fuel supplied via (F) (F) has a mixing region having a magnitude in a relatively small solid fuel in combustion and passing through (D), state large sized solid fuel (F) is below the lower fuel loading part (500) can be wound with the clean up. Fuel loading part (500) is burned (S) a size corresponding to a combustion engine in which the combustion re-exhaust worker (510) is formed, said fuel absorber (500) end in the circumferential direction of said combustion chamber (100) while said formed apart from each inner surface of the combustion chamber (100) combustion material (S) combustion in the combustion chambers are formed material exhaust line (530) can be formed. As shown in fig. 1, of the present invention combustion flue re-exhaust worker (510) and, said burned exhaust line (530) mounted above the combustion material (S) can be ejected at least either one side for guiding the lower slant guide (600) can be further comprises. A slant guide (600) is said fuel absorber (500) with the lower side of the can be. As shown in fig. 1, of the present invention combustion include said fuel absorber (500) and, said slant guide (600) adapted to absorb thermal energy accumulated, said fuel absorber (500) and heat exchange fluid flows is installed in the tub a reheat [...] (700) can be further comprises. Reheat [...] (700) fuel loading part (500) is installed in the air-fuel ratio of the loading unit (500) to flow so as to heat exchange with combustion heat exchange thermal energy might confucianism metonymy placed in furnace waste heat recycling to improve the heat efficiency, temperature rise in the furnace due to thermal deformation and sustained, can be protected against damage. In addition, reheat [...] (700) is a slant guide (600) (S) combustion material discharged along additional accumulated heat energy can be absorbed in the first shield is smaller furnace. First, of the present invention in the embodiment of the present invention detailed above is supported by the SFC but not limited to scope of the invention, a technical idea of the present invention within a range that the claims various modifications and outputted from a heavy user and having the ordinary skill in art will-case. 100: combustion chamber 110: outlet 200: air supply number 1 210: number 1 supply means 211: inlet passage number 1 230: upward pivoting zone number 1 231: number 1 up air passage 233: upstream guide vane number 1 250: turning zone number 1 down 251: number 1 down air passage 253: number 1 down guide vane 260: external plate number 1 270: a central plate number 1 280: internal plate number 1 300: air supply number 2 310: number 2 supply means 311: inlet passage number 2 330: upward pivoting zone number 2 350: down turning zone number 2 351: down air passage number 2 353: number 2 down guide vane 360: external plate number 2 370: a central plate number 2 380: internal plate number 2 400: fuel supply section 410: fuel feed pipe 430: the adiabatic member 500: fuel loading part 510: combustion re-exhaust worker 530: burned exhaust line 600: a slant guide 700: reheat [...] D: mixing region E: at the centerline F: solid fuel S: combustion material The present invention relates to a furnace for solid fuel, including: a combustion chamber; a first air supply portion formed in an upper region of the combustion chamber and supplying air to an inner space of the combustion chamber while forming a swirl flow from an upper side thereof to a lower side thereof; a second air supply portion formed in a lower region of the combustion chamber and supplying air while forming a swirl flow in the inner space of the combustion chamber from a lower side thereof to an upper side thereof; a fuel supply portion installed at a central portion of the combustion chamber to drop and supply the solid fuel to a mixed region of the swirl flow of the first air supply portion and the swirl flow of the second air supply portion; and a fuel loading portion to which the remaining amount of the solid fuel burned in the mixed region is dropped and loaded. Accordingly, the present invention is able to increase a contact area with air during a process of inserting solid fuel so as to increase combustion efficiency. COPYRIGHT KIPO 2017 Combustion chamber; the upper region of said combustion chamber is formed, while air is supplied to number 1 exhausts downwardly the interior space of a combustion chamber air supply; said automobile formed in bottom territory, while air is supplied to an inner space of the combustion chamber air supply number 2 exhausts upwards; and, said combustion chamber on the central part of the cell gaps, said number 2 fuel air supply for room air supply for room by fabricating the mixed region said number 1 product has dropped fuel supply is installed under the dialkyl carbonates; including a solid fuel combustion. According to Claim 1, air supply and said number 1, said number 2 on the outside of the combustion chamber air supply at least either side of the driving force in an inward direction and are interconnected solid fuel combustion exhausts while multiple turning region and a throat region. According to Claim 2, said multiple turning zone is, in the form of at least one upstream guide vane pivoting zone rises to the upper spiral formed up; and, at least one guide vane formed of a downwardly directed spiral form lower slopes down turning zone; with solid fuel combustion. According to Claim 1, the air supply said number 1, number 1 number 1 outer plates and central plate number 1 by an air supply means supplied in air euro number 1 number 1 moved up along and turning upward turning zone; and, said number 1 to number 1 [...] end up turning zone and extends upwardly, said number 1 stored in the central plate and said number 1 number 1 moved down along a lower inner air euro turning number 1 down turning zone; with, the air supply said number 2, number 2 power supply modules are stored in the air supply means along a number 2 number 2 number 2 outer plates and inner turning down air euro lower moved down turning zone number 2; with solid fuel combustion. According to Claim 4, turning zone is exposed between said number 1 up said number 1 outer plates and central plate said number 1 and number 1 rises to the upper spiral form of upstream guide vane, said number 1 turning zone is exposed inner plate has a central plate and said number 1 down said number 1 and number 1 in the form of inclined spiral down the lower guide vane, said number 2 down turning zone is exposed in the form of number 2 on the lower between the outer plates and said number 2 down inclined spiral guide vane inner said number 2 having a solid fuel combustion. According to Claim 1, the air supply said number 1, number 1 supply means supply air stored in the air euro number 1 number 1 number 1 outer plates and inner turning down turning zone moved down along a lower number 1; with, the air supply said number 2, number 2 power supply modules are stored in the air supply means along a number 2 number 2 number 2 outer plates and inner turning down air euro lower moved down turning zone number 2; having solid fuel combustion. According to Claim 1, said fuel supply portion, formed to the center portion of said combustion chamber, through said fuel feed pipe to supply mixed with a solid fuel chambers are formed; and, said number 1 formed between the air supply and air supply and said number 2, said insulating member formed so as to surround the fuel feed pipe; with solid fuel combustion. According to Claim 1, 2 by combustion of solid fuel remaining drops onto said in a mixing section 1 difference secondary combustion fuel loading part; further including solid fuel combustion. According to Claim 8, said fuel loading part is formed on the lower combustion combustion material in which the combustion re-exhaust plunger, the circumferential direction of said inner surface of said combustion chamber while said combustion in the combustion chamber fuel loading part end has fallen into the combustion material burned exhaust line formed apart from each is formed, said combustion re-exhaust worker and, said burned exhaust line mounted above the combustion material can be ejected at least either one side for guiding the lower slant guide; further including solid fuel combustion. According to Claim 9, said fuel loading and, said accumulated slant guide adapted to absorb thermal energy, said heat exchange fluid flows is installed on a part of a fuel pressure regulation reheat [...]; further including solid fuel combustion.
