Solid fuel burner, burning method using the same, combustion apparatus and method of operating the combustion apparatus
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F23H-005/00
F23D-001/00
출원번호
US-0292694
(2002-11-13)
우선권정보
JP-0037435 (2002-02-14); JP-0351746 (2001-11-16)
발명자
/ 주소
Okazaki, Hirofumi
Taniguchi, Masayuki
Tsumura, Toshikazu
Takahashi, Yoshitaka
Kuramashi, Kouji
출원인 / 주소
Hitachi, Ltd.
Babcock- Hitachi K.K.
대리인 / 주소
Crowell &
인용정보
피인용 횟수 :
4인용 특허 :
9
초록▼
A solid fuel burner and method uses a low oxygen concentration gas as a transporting gas for a low grade solid fuel such as brown coal or the like, provides for accelerating ignition of the fuel and for preventing slugging caused by combustion ash. Mixing of fuel and air inside a fuel nozzle 11 is a
A solid fuel burner and method uses a low oxygen concentration gas as a transporting gas for a low grade solid fuel such as brown coal or the like, provides for accelerating ignition of the fuel and for preventing slugging caused by combustion ash. Mixing of fuel and air inside a fuel nozzle 11 is accelerated by an additional air nozzle 12 and a separator 35 for separating a flow passage, arranged in the fuel nozzle 11, and an exit of the additional air nozzle 12 is set at a position that overlaps with the separator 35. Additional air is ejected in a direction nearly perpendicular to a flow direction of a fuel jet flowing through the fuel nozzle 11. The amount of air from the additional air nozzle 12 is varied corresponding to a combustion load, in order to assure stable burning of the fuel, and, to suppress radiant heat received by structures of the solid fuel burner and walls of the furnace.
대표청구항▼
1. A burning method using a solid fuel burner having a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas, an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid, said additional air nozzl
1. A burning method using a solid fuel burner having a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas, an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid, said additional air nozzle having an exit arranged at a position in the burner upstream of an exit of said fuel nozzle, and at least one outer-side air nozzle for ejecting air, said outer-side air nozzle being arranged outside of said fuel nozzle, said method comprising:increasing an oxygen concentration in the outer peripheral portion on an exit cross-sectional plane of said fuel nozzle to an amount that is higher than an oxygen concentration in the central portion.2. A burning method using a solid fuel burner having a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas, an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid, said additional air nozzle having an exit arranged at a position in the burner upstream of an exit of said fuel nozzle, and at least one outer-side air nozzle for ejecting air, said outer-side air nozzle being arranged outside of said fuel nozzle, said method comprising:increasing an oxygen concentration and a fuel concentration in the outer peripheral portion on an exit cross-sectional plane of said fuel nozzle to an amount that is higher than oxygen concentration and fuel concentration in the central portion.3. A burning method using a solid fuel burner having a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas, an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid, said additional air nozzle having an exit arranged at a position in the burner upstream of an exit of said fuel nozzle, and at least one outer-side air nozzle for ejecting air, said outer-side air nozzle being arranged outside of said fuel nozzle, said method comprising:when a combustion load is low, increasing an amount of air supplied from said additional air nozzle; andwhen the combustion load is high, decreasing the amount of air supplied from said additional air nozzle.4. A burning method using a solid fuel burner having a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas, an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid, said additional air nozzle having an exit arranged at a position in the burner upstream of an exit of said fuel nozzle, and at least one outer-side air nozzle for ejecting air, said outer-side air nozzle being arranged outside of said fuel nozzle, said method comprising:when a combustion load is low, increasing an amount of air supplied from said additional air nozzle, and decreasing a flow rate of air supplied from the outer air nozzle of said outer air nozzles which is closest to said fuel nozzle or increasing a swirl flow speed; andwhen a combustion load is high, decreasing the amount of air supplied from said additional air nozzle, and increasing the flow rate of air supplied from the air nozzle of said outer air nozzles, which is closest to said air nozzle, or decreasing the swirl intensity.5. A solid fuel burner, comprising:a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas;an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid, said additional air nozzle having an exit arranged at a position in the burner upstream of an exit of said fuel nozzle; andat least one outer-side air nozzle for ejecting air, said outer-side air nozzle being arranged outside of said fuel nozzle; whereinan obstacle is provided inside said fuel nozzle on an upstream side of said exit of said additional air nozzle, said obstacle being composed of a portion contracting and a portion expanding the cross-sectional area of a flow passage inside said fuel nozzle, said portions being arranged in order of the flow passage cross-sectional area contracting portion and the flow passage cross-sectional area expanding portion from an upstream side of said burner; andsaid additional air nozzle is arranged around said flow passage cross-sectional area expanding portion located downstream of said flow passage cross-sectional area contracting portion.6. The solid fuel burner according to claim 5, wherein:said obstacle comprises a toothed flame stabilizing ring which is arranged on a downstream end of a separation wall portion for separating said fuel nozzle and said outer-side air nozzle;said toothed flame stabilizing ring forms an obstacle to a flow of said mixed fluid from said fuel nozzle, and to a flow of air from said outer-side air nozzle. 7. A solid fuel burner, comprising:a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas;an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid, said additional air nozzle having an exit arranged at a position in the burner upstream of an exit of said fuel nozzle; andat least one outer-side air nozzle for ejecting air, said outer-side air nozzle being arranged outside of said fuel nozzle, whereinsaid additional air nozzle is arranged in a separation wall portion for separating said fuel nozzle from said outer-side air nozzle;a separator for dividing a flow passage is arranged in said fuel nozzle,said transporting gas is a gas having an oxygen concentration lower than the oxygen concentration of air, andan exit of said additional air nozzle is in a position where said exit overlaps with said separator when said exit is seen in a direction vertical to an axis of the burner.8. A solid fuel burner according to claim 7, whereinsaid additional air nozzle is arranged in a central portion of said fuel nozzle.9. A solid fuel burner according to claim 7, whereinan obstacle is provided inside said fuel nozzle at an upstream side of said exit of said additional air nozzle, said obstacle being composed of a portion contracting and a portion expanding the cross-sectional area of a flow passage inside said fuel nozzle, said portions being arranged in order of said contracting portion and said expanding portion from an upstream side of said burner, andin an upstream end portion of said separator in the flow passages of the fuel nozzle divided by said separator, a cross-sectional area of the flow passage in the side of arranging the additional air nozzle is larger than a cross-sectional area of the flow passage contracted by said obstacle.10. A solid fuel burner according to claim 7, whereinsaid separator is formed of a cylindrical or a tapered thin plate structure, andsaid solid fuel burner comprises a flow passage contracting member upstream of said separator, said flow passage contracting member contracting the flow passage from the outer peripheral side of said fuel nozzle; and a concentrator downstream of said flow passage contracting member, said concentrator contracting the flow passage from the side of the center axis of said fuel nozzle.11. A solid fuel burner according to claim 7, wherein:a toothed flame stabilizing ring is arranged on a downstream end of said separation wall portion; andsaid toothed flame stabilizing ring forms an obstacle to a flow of said mixed fluid from said fuel nozzle, and to a flow of air from said outer-side air nozzle.12. A combustion apparatus, which comprises:a furnace having a plurality of the solid fuel burners, each of which has a fuel nozzle for ejecting a mixed fluid of a solid fuel and a transporting gas; an additional air nozzle for ejecting air into said fuel nozzle in a direction nearly perpendicular to a flow direction of said mixed fluid; and at least one outer-side air nozzle for ejecting air, said outer-side air nozzle being arranged outside of said fuel nozzle, wherein an exit of said additional air nozzle is arranged at a position in the burner upstream of an exit of said fuel nozzle, said combustion further comprising:a hopper;a coal feeder;a pulverizer fed with fuel which is mixed with combustion exhaust gas extracted from an upper portion of said combustion apparatus and inside a combustion exhaust gas pipe downstream of said coal feeder;a fuel pipe for feeding fuel pulverized by said pulverizer to said solid fuel burners;a blower for supplying air to said solid fuel burners;one of a low load flame detector, a thermometer and a radiation pyrometer, for monitoring a flame formed in each of said solid fuel burners under a low load condition;one of a high load flame detector, a thermometer and a radiation pyrometer for monitoring flames formed in a position distant from said solid fuel burners under a high load condition; andcontrol means for controlling supplied an amount of the air ejected from said additional air nozzle based on a signal from said measurement instruments. 13. A method of operating the combustion apparatus according to claim 12, whereinwhen said combustion apparatus is operated with a high combustion load, the flame of the solid fuel is formed in a position distant from said solid fuel burner; andwhen said combustion apparatus is operated with a low combustion load, the flame of the solid fuel is formed in a position just after the exit of the fuel nozzle of said solid fuel burner.
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