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
    • 1. 发明公开
    • TUBULAR FURNACE AND METHOD OF CONTROLLING COMBUSTION THEREOF.
    • PIPE炉及其控制方法其燃烧。
    • EP0641851A4
    • 1995-07-05
    • EP92922460
    • 1992-10-30
    • NIPPON FURNACE KOGYO KKCHIYODA CHEM ENG CONSTRUCT COFURNACE TECHNO CO LTD SAWADASE
    • MIYAMA HIROSHIOHKI TETSUHIKOKAJI HITOSHISHIMIZU RYOSUKETANAKA RYOICHIMATSUO MAMORUKAWAMOTO MASAOKIKUKAWA HIROKUNI NIPPON FURNA
    • C10G9/20
    • C10G9/206C10G9/20
    • A tubular furnace of such an arrangement that, while a fluid to be heated can be prevented from coking or a heating pipe can be prevented from burning, a predetermined quantity of heat is provided through a smaller heat transfer area and problems of corrosion at low temperature of the heating pipe in the tubular furnace due to sulfur contents in the fuel are solved, to thereby achieve a high efficiency. In this tubular furnace (1), a coil path (3) is divided into a plurality of zones (2, ..., 2); at least one heat accumulator type burner system (4) is provided in each of the zones (2, ..., 2) for alternately performing the supply of combustion air to burners (5, 6) through heat accumulators (7, 7) and the discharge of combustion gas therefrom; a combustion quantity is independently controlled in each of the zones (2, ..., 2), so that a desirable heat flux pattern can be formed such that a boundary layer temperature of the fluid to be heated in the zones (2, ..., 2) of the coil path (3) is lower than a coking temperature or lower than an allowable maximum temperature to be determined by the material for use in the heating pipe, and is set substantially the same in all of the zones. With this arrangement, the heat flux is increased at the inlet zone where the temperature is well below a coking temperature, while coking is prevented; a predetermined quantity of heat is provided through a smaller heat transfer area; the temperature of the tubular wall at the inlet zone is raised to avoid the corrosion at low temperature; the waste heat of the waste combustion gas is utilized to preheat the combustion air so as to achieve a thermal efficiency as high as that in a furnace provided with a convection section, even without a convection section, so that it becomes possible to render the furnace compact in size or to increase the treating quantity.
    • 4. 发明专利
    • TUBULAR FURNACE AND METHOD OF CONTROLLING COMBUSTION THEREOF
    • CA2122482C
    • 1998-06-16
    • CA2122482
    • 1992-10-30
    • FURNACE TECHNO COMPANY LTDCHIYODA CHEM ENG CONSTRUCT CONIPPON FURNACE KOGYO KK
    • MIYAMA HIROSHIOHKI TETSUHIKOKAJI HITOSHISHIMIZU RYOSUKETANAKA RYOICHIMATSUO MAMORUKAWAMOTO MASAOKIKUKAWA HIROKUNI
    • C10G9/20F23C5/08
    • A tubular furnace of such an arrangement that, while a fluid to be heated can be prevented from coking or a heating tube can be prevented from burning, a predetermined quantity of heat is provided through a smaller heat transfer area and problems of corrosion at low temperature of the heating pipe in the tubular furnace due to sulfur contents in the fuel are solved, to thereby achieve a high efficiency. In this tubular furnace(1), a coil path(3) is divided into a plurality of zones (2a,2b,2c,2d), at least one regenerative-heating-type burner system(4) is provided in each of the zones(2,...,2) for alternately performing the supply of combustion air to burners(5,6) through regenerative beds(7,7) and the discharge of combustion gas therefrom; an amount of combustion is independently controlled in each of the zones(2a,2b,2c,2d) so that a desirable heat flux pattern can be formed such that a boundary layer temperature of the fluid to be heated in the zones(2a,2b,2c,2d) of the coil path(3) is lower than a coking temperature or lower than an allowable maximum temperature to be determined by the material for use in the heating pipe, and is set substantially the same in all of the zones. With this arrangement, the heat flux is increased at the inlet zone where the temperature is well below a coking temperature, while coking is prevented, a predetermined quantity of heat is provided through a smaller heat transfer area, the temperature 27 of the tubular wall at the inlet zone is raised to avoid the corrosion at low temperature, the exhaust heat of the exhaust combustion gas is utilized to preheat the combustion air so as to achieve a heat efficiency as high as that in a furnace provided with a convection section, even without a convection section, so that it becomes possible to render the furnace compact in size or to increase the treating quantity.