会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明专利
    • PULVERIZED COAL-AIR RATIO ADJUSTING DEVICE IN COAL PULVERIZER
    • JPS60207823A
    • 1985-10-19
    • JP6291384
    • 1984-03-30
    • KAWASAKI HEAVY IND LTD
    • OOHARA SEIJI
    • B65G53/66F23K3/02
    • PURPOSE:To obtain the titled pulverized coal-air ratio adjusting device for adjusting the concentration of pulverized coal to a value adapted for the combustion in the burner by measuring the quantity of air or gas to be supplied to a mill and the quantity of air or a gas exhausted through an outlet port of a separator and to adjust the quantity thereof by a damper. CONSTITUTION:The quantity of air or gas of a high temperature supplied to a mill 1 is measured by a flow quantity meter 11 provided in a flow passage 8', the quantity of air or gas passing from the upper part of a cyclone separator 2 and discharged via a flow passage 10 is measured by a flow quantity meter 12 and the quantity of air or gas branched from the flow passage 10 and flowing through a flow passage 13 is measured by a flow quantity meter 14. The quantity of pulverized coal is obtained from the quantity of coal supplied to the mill 1 and the ratio A/C of the quantity of air (gas) carrying pulverized coal to the burner to the quantity of pulverized coal is sought. The quantity of air or gas to be supplied to the mill 1 through the flow passage 8 is controlled by actuating the damper 7 so that the ratio A/C assumes a predetermined value. The quantity of air or gas discharged through the flow passage 10 by actuating the damper 9. In this manner, the concentration of pulverized coal supplied from a T-shaped mixer 4' to the burner via a flow passage 15 assumes a value optimum for the combustion in the burner.
    • 3. 发明专利
    • MULTISTAGE TWO-STAGE COMBUSTION AIR HOLES OF COMBUSTION CHAMBER
    • JPS60207808A
    • 1985-10-19
    • JP6291284
    • 1984-03-30
    • KAWASAKI HEAVY IND LTD
    • OOHARA SEIJITAKANO TOSHIHIRO
    • F23C99/00F23C6/04
    • PURPOSE:To simplify the structure of a water-cooled wall and the duct of a combustion chamber to facilitate the manufacture thereof and to decrease the cost therefore by dividing two-stage combustion air holes of the combustion chamber into several parts and dividing and supplying two-stage combustion air from the air holes into the upstream and the downstream of combustion gas. CONSTITUTION:Several two-stage combustion air holes 3 are provided laterally at the upper part of an upermost burner 2 in a suitable distance. Respective lateral two-stage combustion air holes 3 are divided at the upper and lower parts, and divided air holes 3a and 3b have such a structure that the stream of two-stage combustion air assumes the forms shown by solid lines and oblique lines. By the multistage, two-stage combustion air holes 3, the two-stage combustion air can be divided and supplied to the upstream and the downstream of the combustion gas generated from the pulverized coal combustion by the burner 2 of a boiler combustion chamber 1, and reduction of NOx and C in the substantially same degree as the case of providing ordinary two-stage combustion air holes at the upper and lower stages can be effected.
    • 10. 发明专利
    • OPERATING METHOD OF SUPERCHARGER
    • JPS5855610A
    • 1983-04-02
    • JP15581381
    • 1981-09-30
    • KAWASAKI HEAVY IND LTD
    • OOHARA SEIJI
    • F23D1/02F02C1/05F02C6/04F23L5/00F23L15/00
    • PURPOSE:To decrease power consumption in a supercharger, by cooling the device incorporated with a high temperature body by the air fed from outside, and by introducing heated air into a combustion chamber through a gas turbine to which a compressor for cooling air is directly connected. CONSTITUTION:A refractory material 5 is lined on the inside of a cylindrical combustion chamber 1 into which a combustion air is fed from a tangential opening 3, along with pulverized coal sucked from a burner which is not shown through an opening 2, when this method is practiced in a cyclone furnace. On the other hand, cooling passages 6 and 6' are provided returnedly to the outer periphery of a combustion chamber 1, and cooling air is fed into the passage 6 from a compressor 8 through an air pipe 9. The cooling air cools the combustion chamber 1, and the heated air is led into a gas turbine 11 from the passage 6' through an air pipe 10, to let it perform a work of driving the compressor 8, and the air going out of the gas turbine 11 is led into a combustion chamber 1.