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    • 1. 发明授权
    • Heavy oil emulsified fuel evaporator system and operation method thereof
    • 重油乳化燃料蒸发器系统及其运行方法
    • US06413361B1
    • 2002-07-02
    • US09078658
    • 1998-05-14
    • Hirokazu HinoKimishiro TokudaToshimitsu IchinoseKatsuyuki Ueda
    • Hirokazu HinoKimishiro TokudaToshimitsu IchinoseKatsuyuki Ueda
    • B01D100
    • F23K5/08F23K5/20F23K5/22F23K2301/204F23K2900/00001F23K2900/05083Y10S44/903Y10S44/904Y10S159/90
    • A heavy oil emulsified fuel evaporator system is provided in which a heavy oil emulsified fuel, after being preheated at a preheater, flows into an evaporator to be heated and then to a separator for separation of its water content. The water content, after being separated, is used as a preheating source medium for said preheater, wherein water content separation at a predetermined level is enabled irrespective of load change in a heavy oil fuel combustion equipment, and no light oil content is discharged together with the separated water content. Heavy oil emulsified fuel 11a is preheated at a preheater 13, is heated at an evaporator 14 and flows into a separator 15 to be separated of its water content. Water content, after being separated, is sent via a piping 15a to be used as the preheating source medium for the preheater 13. Inlet temperature of the evaporator 14 is maintained constant, and pressure in the piping 15a for leading the preheating source medium into the preheater 13 is also maintained constant. Further, temperature difference of outlet temperature relative to the inlet temperature of the evaporator 14 is maintained constant. Thereby, the water content in the heavy oil fuel coming out of the separator 15 can be maintained at a predetermined value.
    • 提供了一种重油乳化燃料蒸发器系统,其中重油乳化燃料在预热器预热之后流入要加热的蒸发器中,然后流入分离器以分离其含水量。 分离后的水含量被用作所述预热器的预热源介质,其中,在重油燃料燃烧设备中的负荷变化下,能够使预定水平的含水量分离,并且不会将轻油含量与 分离含水量。 重油乳化燃料11a在预热器13上预热,在蒸发器14处加热并流入分离器15以分离其含水量。 分离后的水分通过管道15a送出,用作预热器13的预热源介质。蒸发器14的入口温度保持恒定,并将用于引导预热源介质的管道15a中的压力进入 预热器13也保持恒定。 此外,出口温度相对于蒸发器14的入口温度的温度差保持恒定。 由此,从分离器15出来的重油燃料中的水分含量可以维持在预定值。
    • 3. 发明授权
    • Lamp circuit with disconnected lamp detecting device
    • 灯电路断线检测装置
    • US5099177A
    • 1992-03-24
    • US664749
    • 1991-03-05
    • Shozo TaniguchiTomonori OkabeRyoji DoyaKazutoyo NaritaKiyoshi NodaKatsuyuki Ueda
    • Shozo TaniguchiTomonori OkabeRyoji DoyaKazutoyo NaritaKiyoshi NodaKatsuyuki Ueda
    • H05B37/03
    • H05B37/038
    • A plurality of current transformers connected in series provide secondary winding sides respectively connected to lamps. A constant-current source is provided to supply constant current to these lamps. Each lamp is connected to the corresponding terminal unit including a short-circuit switch for short-circuiting the secondary winding side of the transformer when the lamp is disconnected. A master station issues a request for detecting a disconnected lamp or checking whether or not failure occurs in the terminal unit to each terminal unit in the form of an instant power interruption. Each terminal unit has a proper identification time assigned thereto. In response to the request issued by the master station in the form of an instant power interruption, after the proper identification time for each terminal unit, the relevant terminal unit serves to turn off a short-circuit switch for opening the secondary winding side of the transformer for a predetermined time or, during the proper identification time, the terminal unit serves to control the short-circuit switch on and off according to a predetermined code to respond to the request issued by the master station. In the master station, the constant-current source reads the information from each terminal unit based on the waveform change of an output current and output voltage of the constant-current source so as to determine whether or not each lamp is disconnected, where the disconnected lamp is located, whether or not each terminal unit fails, and where the failed terminal unit is located.
    • 串联连接的多个电流互感器提供分别连接到灯的次级绕组侧。 提供恒流源以向这些灯提供恒定电流。 每个灯连接到相应的终端单元,包括短路开关,用于当灯断开时使变压器的次级绕组侧短路。 主站发出检测断线灯的请求,或者以即时电源中断的形式检查终端单元到每个终端单元是否发生故障。 每个终端单元具有适当的识别时间。 响应于主站以瞬时电源中断的形式发出的请求,在每个终端单元的适当的识别时间之后,相关的终端单元用于关闭用于打开第二绕组侧的短路开关 变压器预定时间,或者在适当的识别时间期间,终端单元用于根据预定代码来控制短路开关的接通和断开,以响应主站发出的请求。 在主站中,恒流源基于恒定电流源的输出电流和输出电压的波形变化从每个终端单元读取信息,以便确定每个灯是否断开,其中断开 无论每个终端单元是否发生故障,以及故障终端单元所在的位置。
    • 4. 发明授权
    • Pulverizing method and horizontal mill
    • 粉碎方法和水平轧机
    • US5544818A
    • 1996-08-13
    • US505636
    • 1995-07-21
    • Hirohisa YoshidaKatsuyuki Ueda
    • Hirohisa YoshidaKatsuyuki Ueda
    • B02C17/10B02C17/16B02C17/18B02C17/20B02C17/00
    • B02C17/166
    • A horizontal mill for ultra-fine pulverization which has enhanced pulverization characteristics and reduced power consumption while suppressing damage or wear of pulverizing media. The pulverizing media (balls) are provided in a pulverizing chamber defined by a space between an inner cylinder and an outer cylinder which are rotated relative to each other. Large diameter pulverizing media are used and the rotational speed is kept at a low level, which is opposite to the conventional theory of using small diameter media and high rotational speeds. Since the rotational speed is low, the corresponding wear of the pulverizing media is reduced. The degradation in pulverizing performance due to the low rotational speed may be recovered by using large diameter pulverizing media. Also, the dimensional ratio between the inner and outer cylinders, the interval between the inner and outer sleeves, and the axial interval between agitating vanes are suitably selected to enhance the mill performance.
    • 一种用于超细粉碎的卧式磨机,其具有增强的粉碎特性和降低的功率消耗,同时抑制粉碎介质的损坏或磨损。 粉碎介质(球)设置在由相对于彼此旋转的内筒和外筒之间的空间限定的粉碎室中。 使用大直径的粉碎介质并且转速保持在低水平,这与使用小直径介质和高转速的常规理论相反。 由于转速低,粉碎介质的相应磨损减小。 通过使用大直径的粉碎介质可以回收由于低转速引起的粉碎性能的劣化。 此外,适当地选择内筒和外筒之间的尺寸比,内套筒和外套筒之间的间隔以及搅拌叶片之间的轴向间隔,以提高轧机性能。