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    • 4. 发明授权
    • System and method for online inspection of turbines including temperature and vibration compensating lens mount
    • 涡轮机在线检测系统和方法,包括温度和振动补偿镜头安装
    • US09366855B2
    • 2016-06-14
    • US13362365
    • 2012-01-31
    • Erwan BaleineVinay JonnalagaddaMichael Savard
    • Erwan BaleineVinay JonnalagaddaMichael Savard
    • H04N7/18G02B23/24G02B7/02G03B17/12G03B17/55
    • G02B23/2492G02B7/028G03B17/12G03B17/55
    • Optical camera systems for nondestructive internal inspection of online, operating power generation turbines, including gas turbine combustor and turbine sections that are at high operating temperatures in the range of over 600° C. (1112° F.). The system includes one or more temperature and vibration-compensating lens systems in the optical tube mount. The lens is circumferentially retained within a lens mount, with a mounting ring in contact with only the lens axial face. A biasing element exerts axially oriented biasing force on the first lens face through the first mounting ring, allowing for mount flexure in response to operational turbine vibration and temperature changes. The lens mount is advantageously combined with aspheric lenses capable of withstanding continuous operating temperatures above 600° C. The aspheric lenses, alone or in combination with spherical lenses, establish a wider field of view, and require fewer lenses in combination than lens mounts incorporating only spherical lenses.
    • 在超过600°C(1112°F)范围内工作温度高的在线工作发电涡轮机(包括燃气轮机燃烧器和涡轮机部分)进行非破坏性内部检查的光学相机系统。 该系统在光学管座中包括一个或多个温度和振动补偿透镜系统。 透镜周向地保持在透镜安装件内,安装环仅与透镜轴向面接触。 偏置元件通过第一安装环在第一透镜面上施加轴向取向的偏压力,从而允许响应于涡轮机运行的振动和温度变化而进行安装弯曲。 透镜支架有利地与能够承受高于600℃的连续工作温度的非球面透镜组合。非球面透镜单独或与球面透镜组合建立了更宽的视野,并且与仅包括的透镜座相比,需要更少的透镜组合 球面镜片。
    • 7. 发明授权
    • System and method for online inspection of turbines using an optical tube with broadspectrum mirrors
    • 使用带宽光谱镜的光学管线进行涡轮机在线检测的系统和方法
    • US09217852B2
    • 2015-12-22
    • US13597919
    • 2012-08-29
    • Erwan Baleine
    • Erwan Baleine
    • G01J5/00G02B17/06G01N21/00G02B23/24G01N21/95G01N21/954
    • G02B17/0652G01N21/00G01N21/95G01N21/954G02B23/2492
    • An optical inspection system for nondestructive internal visual inspection and non-contact infra-red (IR) temperature monitoring of an online, operating power generation turbine. The optical inspection system includes an optical tube having a viewing port, at least one reflective mirror or a mirror array having a reflectivity spectral range from 550 nm to 20 μm, and capable of continuous operation at temperatures greater than 932 degrees Fahrenheit (500 degrees Celsius), and a transparent window with high transmission within the same spectral range mounted distal the viewing port. The same optical mirror array may be used to measure selectively surface temperature of metal turbine blades in the near IR range (approximately 1 μm wavelength) and of thermal barrier coated turbine blades in the long IR range (approximately 10 μm wavelength).
    • 一种用于在线,运行发电机组的非破坏性内部视觉检测和非接触式红外(IR)温度监测的光学检测系统。 光学检查系统包括具有观察口的光学管,至少一个反射镜或反射镜阵列,其反射光谱范围为550nm至20μm,并能够在大于932华氏度(500摄氏度)的温度下连续工作 )和在观察端口远端安装的相同光谱范围内具有高透射率的透明窗口。 可以使用相同的光学镜阵列在近红外范围(大约1μm波长)中选择性地测量金属涡轮叶片的表面温度以及在长IR范围(约10μm波长)中的热障涂覆的涡轮叶片。
    • 8. 发明授权
    • Infrared non-destructive evaluation method and apparatus
    • 红外非破坏性评估方法及装置
    • US08866084B2
    • 2014-10-21
    • US13604668
    • 2012-09-06
    • Erwan BaleineJames F. LandyChing-Pang LeeStephanie Stinelli
    • Erwan BaleineJames F. LandyChing-Pang LeeStephanie Stinelli
    • G01J5/02
    • G01J5/522G01J5/0088G01J2005/0048G01J2005/0077G01J2005/0081G01N25/72
    • A method of nondestructive evaluation and related system. The method includes arranging a test piece (14) having an internal passage (18) and an external surface (15) and a thermal calibrator (12) within a field of view (42) of an infrared sensor (44); generating a flow (16) of fluid characterized by a fluid temperature; exposing the test piece internal passage (18) and the thermal calibrator (12) to fluid from the flow (16); capturing infrared emission information of the test piece external surface (15) and of the thermal calibrator (12) simultaneously using the infrared sensor (44), wherein the test piece infrared emission information includes emission intensity information, and wherein the thermal calibrator infrared emission information includes a reference emission intensity associated with the fluid temperature; and normalizing the test piece emission intensity information against the reference emission intensity.
    • 一种无损检测方法及相关系统。 该方法包括在红外传感器(44)的视场(42)内布置具有内部通道(18)和外表面(15)和热校准器(12)的测试件(14)。 产生以流体温度为特征的流体流(16); 将测试件内部通道(18)和热校准器(12)暴露于来自流动(16)的流体; 使用红外传感器(44)同时捕获测试件外表面(15)和热校准器(12)的红外发射信息,其中测试件红外发射信息包括发射强度信息,并且其中热校准器红外发射信息 包括与流体温度相关联的参考发射强度; 并根据参考发射强度对测试片发射强度信息进行归一化。
    • 9. 发明申请
    • SYSTEM AND METHOD FOR ONLINE INSPECTION OF TURBINES INCLUDING TEMPERATURE AND VIBRATION COMPENSATING LENS MOUNT
    • 用于在线检查涡轮机的系统和方法,包括温度和振动补偿镜头安装
    • US20130194411A1
    • 2013-08-01
    • US13362365
    • 2012-01-31
    • Erwan BaleineVinay JonnalagaddaMichael Savard
    • Erwan BaleineVinay JonnalagaddaMichael Savard
    • H04N7/18G03B17/00
    • G02B23/2492G02B7/028G03B17/12G03B17/55
    • Optical camera systems for nondestructive internal inspection of online, operating power generation turbines, including gas turbine combustor and turbine sections that are at high operating temperatures in the range of over 600° C. (1112° F.). The system includes one or more temperature and vibration-compensating lens systems in the optical tube mount. The lens is circumferentially retained within a lens mount, with a mounting ring in contact with only the lens axial face. A biasing element exerts axially oriented biasing force on the first lens face through the first mounting ring, allowing for mount flexure in response to operational turbine vibration and temperature changes. The lens mount is advantageously combined with aspheric lenses capable of withstanding continuous operating temperatures above 600° C. The aspheric lenses, alone or in combination with spherical lenses, establish a wider field of view, and require fewer lenses in combination than lens mounts incorporating only spherical lenses.
    • 在超过600°C(1112°F)范围内工作温度高的在线工作发电涡轮机(包括燃气轮机燃烧器和涡轮机部分)进行非破坏性内部检查的光学相机系统。 该系统在光学管座中包括一个或多个温度和振动补偿透镜系统。 透镜周向地保持在透镜安装件内,安装环仅与透镜轴向面接触。 偏置元件通过第一安装环在第一透镜面上施加轴向取向的偏压力,从而允许响应于涡轮机运行的振动和温度变化而进行安装弯曲。 透镜支架有利地与能够承受高于600℃的连续工作温度的非球面透镜组合。非球面透镜单独或与球面透镜组合建立了更宽的视野,并且与仅包括的透镜座相比,需要更少的透镜组合 球面镜片。