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. 发明授权
    • Retractable chemical injection system
    • 伸缩式化学注射系统
    • US5585072A
    • 1996-12-17
    • US379974
    • 1995-01-27
    • Thomas E. MoskalMichael L. MeullerRonald E. Sherrick
    • Thomas E. MoskalMichael L. MeullerRonald E. Sherrick
    • B01D53/56B01D53/79B01D50/00
    • B01D53/79B01D53/56
    • A retractable chemical injection device especially adapted for introducing a chemical reactant solution into a large scale combustion device such as a fossil fuel fired boiler. The device incorporates a lance tube mounted to a elongated frame located outside of the combustion device which enables the lance tube to be extended into and retracted from the combustion device flue gas stream. The lance tube carries a plurality of axially distributed discharge nozzles enabling the chemical reactant entrained in an injection carrier to be ejected from the nozzles. The injection device provides for atomization of the chemical reactant solution before the mixture passes into the lance tube which provides the beneficial effects of cooling the lance tube and providing a uniform distribution of the chemical solution to the distributed discharge nozzles. Additional features of the injection device include providing a low emissivity coating for the lance tube to reduce heat transfer to the lance tube and means for adjusting the angular position of the lance tube discharge nozzles in use.
    • 一种可伸缩的化学注射装置,特别适用于将化学反应物溶液引入大型燃烧装置如化石燃料燃烧锅炉。 该装置包括安装到位于燃烧装置外部的细长框架的喷枪管,其使得喷枪管能够延伸到燃烧装置烟气流中和从燃烧装置烟气流中缩回。 喷枪管承载多个轴向分布的排放喷嘴,使得夹带在喷射载体中的化学反应物能够从喷嘴喷出。 注射装置在混合物进入喷枪管之前提供化学反应物溶液的雾化,其提供冷却喷枪管的有益效果并且提供化学溶液到分布式排放喷嘴的均匀分布。 注射装置的附加特征包括提供用于喷枪管的低发射率涂层以减少对喷枪管的传热和用于调节在使用中的喷枪管排放喷嘴的角位置的装置。
    • 3. 发明授权
    • Pyrometer for measuring the temperature of a gas component within a furnace
    • 用于测量炉内气体组分温度的高温计
    • US06733173B1
    • 2004-05-11
    • US08770609
    • 1996-12-19
    • John T. HustonJohn W. BertholdThomas E. Moskal
    • John T. HustonJohn W. BertholdThomas E. Moskal
    • G01J500
    • F23N5/082G01J5/041
    • A pyrometer for use in measuring temperatures in a furnace, has a lens-tube for supporting an optical head in a port of the furnace for viewing an interior of the furnace along a line of sight. The optical head converts infrared radiation to electrical signals. A photometer circuit connected to the optical head processes the electrical signals and a scaling circuit connected to the photometer circuit scales the electrical signals. An output circuit connected to the scaling circuit receives the scaled electrical signals and produces output signals for display or control of the furnace. A power supply connected to the scaling circuit powers the photometer, scaling and output circuits. Calibration in the scaling circuit scales the electrical signals to be most sensitive to a wavelength of middle infrared radiation to which at least one gas component in the furnace is semi-transparent, for measuring the temperature of the at least one gas component.
    • 用于测量炉中温度的高温计具有透镜管,用于在炉的端口中支撑光学头,以沿着视线观察炉的内部。 光头将红外辐射转换为电信号。 连接到光学头的光度计电路处理电信号,连接到光度计电路的缩放电路缩放电信号。 连接到缩放电路的输出电路接收缩放的电信号并产生用于显示或控制炉的输出信号。 连接到缩放电路的电源为光度计,缩放和输出电路供电。 缩放电路中的校准将电信号缩放为对中红外辐射波长最敏感的电信号,至少一个气体成分在炉中是半透明的,用于测量至少一种气体成分的温度。
    • 4. 发明授权
    • Pyrometer for measuring the temperature of a gas component within a furnance
    • 用于测量炉内气体组分温度的高温计
    • US07001067B2
    • 2006-02-21
    • US10774565
    • 2004-02-09
    • John T. HustonJohn W. BertholdThomas E. Moskal
    • John T. HustonJohn W. BertholdThomas E. Moskal
    • G01J5/00
    • F23N5/082G01J5/041
    • A pyrometer for use in measuring temperatures in a furnace, has a lens-tube for supporting an optical head in a port of the furnace for viewing an interior of the furnace along a line of sight. The optical head converts infrared radiation to electrical signals. A photometer circuit connected to the optical head processes the electrical signals and a scaling circuit connected to the photometer circuit scales the electrical signals. An output circuit connected to the scaling circuit receives the scaled electrical signals and produces output signals for display or control of the furnace. A power supply connected to the scaling circuit powers the photometer, scaling and output circuits. Calibration in the scaling circuit scales the electrical signals to be most sensitive to a wavelength of middle infrared radiation to which at least one gas component in the furnace is semi-transparent, for measuring the temperature of the at least one gas component.
    • 用于测量炉中温度的高温计具有透镜管,用于在炉的端口中支撑光学头,以沿着视线观察炉的内部。 光头将红外辐射转换为电信号。 连接到光学头的光度计电路处理电信号,连接到光度计电路的缩放电路缩放电信号。 连接到缩放电路的输出电路接收缩放的电信号并产生用于显示或控制炉的输出信号。 连接到缩放电路的电源为光度计,缩放和输出电路供电。 缩放电路中的校准将电信号缩放为对中红外辐射波长最敏感的电信号,至少一个气体成分在炉中是半透明的,用于测量至少一种气体成分的温度。
    • 6. 发明授权
    • Boiler bank surface temperature profiler
    • 锅炉表面温度分析仪
    • US5615953A
    • 1997-04-01
    • US279736
    • 1994-07-25
    • Thomas E. Moskal
    • Thomas E. Moskal
    • G01N25/72G01N25/00G01K1/14G01K13/00
    • G01N25/72
    • A system for determining the cleanliness of a boiler having a plurality of tube banks by obtaining a temperature profile of the boiler heat transfer surfaces includes extending an extension arm, such as a soot blower lance, near the tube banks of the boiler. A separate temperature reading is taken at intervals along the length of the extension arm by utilizing either a plurality of infrared non-contact temperature sensors or a plurality of optical fibers. Each separate temperature reading enables a temperature profile to be determined along the length of the extension arm which, in turn, allows deposit accumulation on the tube banks to be determined.
    • 用于通过获得锅炉传热表面的温度分布来确定具有多个管组的锅炉的清洁度的系统包括在锅炉的管组附近延伸延伸臂,例如鼓风机喷枪。 通过使用多个红外非接触式温度传感器或多根光纤,沿着延伸臂的长度间隔地进行单独的温度读数。 每个单独的温度读数使得能够沿着延伸臂的长度确定温度分布,这进而允许确定在管组上的沉积物积聚。
    • 7. 发明授权
    • Articulating sootblower
    • 铰接式吹灰器
    • US5605117A
    • 1997-02-25
    • US342868
    • 1994-11-21
    • Thomas E. Moskal
    • Thomas E. Moskal
    • F28G3/16F22B37/18
    • F28G3/16
    • A sootblower for cleaning heat exchanger surfaces in a boiler. The sootblower includes a carriage assembly supported by a frame and adapted to cause translational and rotational movement of a lance tube to insert and retract the lance tube into and out of the boiler. The lance tube includes nozzles which project a blowing medium against the heat exchanger surfaces in the boiler. A mechanism is provided to articulate the sootblower so that the angular orientation of the lance tube can be altered with respect to the heat exchanger surfaces in the boiler. The articulating mechanism permits the carriage assembly to advance and withdraw the lance tube in and out of the boiler along a different axes thereby enabling greater cleaning coverage of the heat exchanger surfaces.
    • 用于清洁锅炉热交换器表面的吹灰器。 吹灰器包括由框架支撑并且适于使喷枪管的平移和旋转移动以将喷枪管插入和退出到锅炉中并移出的托架组件。 喷枪管包括将吹风介质投向锅炉中的热交换器表面的喷嘴。 提供了一种用于使吹灰器铰接的机构,使得可以相对于锅炉中的热交换器表面改变喷枪管的角度定向。 铰接机构允许托架组件沿着不同的轴线推进和抽出喷枪管并进出锅炉,从而实现热交换器表面的更大的清洁覆盖。
    • 8. 发明授权
    • Water hammer rapper method and apparatus
    • 水锤敲击器方法和装置
    • US5429077A
    • 1995-07-04
    • US275790
    • 1994-07-15
    • Thomas E. Moskal
    • Thomas E. Moskal
    • F22B37/48F28G7/00F22B37/18
    • F28G7/00F22B37/48
    • An apparatus and method by which deposits are removed from the heat exchange surfaces of heat exchange element in a boiler. According to the present invention, a heat exchange medium flowing through the element at a first temperature has injected into it a fluid at a second temperature. The injection of the fluid and the temperature difference between the fluid and the medium causes a pressure wave to be produced in the heat exchange element at a specific location whereby the pressure wave in the medium causes mechanical vibration of the element. The result is that ash, scale, soot and other deposits are fractured, loosened and removed from the surfaces of the element.
    • 一种从锅炉中的热交换元件的热交换表面去除沉积物的设备和方法。 根据本发明,在第一温度下流过元件的热交换介质在第二温度下注入流体。 流体和流体与介质之间的温度差的注入导致在特定位置处的热交换元件中产生压力波,由此介质中的压力波引起元件的机械振动。 结果是,灰分,氧化皮,烟灰等沉积物从元件的表面断裂,松动和去除。