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    • 1. 发明申请
    • SYSTEM AND METHOD FOR SPRAY VISUALIZATION
    • 用于喷射可视化的系统和方法
    • US20160239954A1
    • 2016-08-18
    • US15140732
    • 2016-04-28
    • MANSOUR MASOUDI
    • MANSOUR MASOUDI
    • G06T7/00G06T7/20G06T7/60
    • G01M15/108B05B12/082F01N2610/02F01N2610/03G01M9/067
    • A spray visualization apparatus and method are disclosed. Unlike laser or Doppler techniques requiring costly instrumentation, the herein disclosed technique is much simpler. The apparatus comprises a hollow flow tube, an injector device coupled to the hollow flow tube, and at least one membrane surface material substantially positioned cross-flow in the hollow flow tube. The method relies on a fluorescent dye marking the spray droplets impinging on the membrane surface material. The image of spray droplets on the membrane reveals the distribution pattern of droplets in the oncoming flow as the droplets impinge on the membrane. A digital scan of the membrane is acquired. The scanned image is quantitatively analyzed for droplet size, amount and uniformity index. The disclosed technique is a low-cost alternative for study and testing spray patterns generated by automobile emissions.
    • 公开了一种喷雾可视化装置和方法。 与需要昂贵仪器的激光或多普勒技术不同,本文公开的技术要简单得多。 该装置包括中空流管,连接到中空流管的注射器装置和在中空流管中基本上定位成交叉流的至少一个膜表面材料。 该方法依赖于荧光染料标记撞击在膜表面材料上的喷雾液滴。 膜上的喷雾液滴的图像揭示了随着液滴撞击到膜上,液滴在迎面而来的流动中的分布模式。 获取膜的数字扫描。 扫描图像定量分析液滴尺寸,数量和均匀度指数。 所公开的技术是用于研究和测试由汽车排放产生的喷雾模式的低成本替代方案。
    • 2. 发明申请
    • AUTOMATED EMISSIONS CAPTURE DETERMINATION
    • 自动排放检测
    • US20150339528A1
    • 2015-11-26
    • US14282649
    • 2014-05-20
    • Broan-NuTone LLC
    • Richard R. SinurEric WilliamsJoseph Brandon Adamo
    • G06K9/00
    • G06K9/00624F24C15/20F24F7/00F24F11/30F24F2007/001F24F2110/50F24F2110/64G01M9/067G01N21/61
    • A method of determining emissions captured can include receiving information indicative of transmission of light through a region nearby an air handling apparatus. The information can include information indicative of a first condition wherein emissions to be captured by the air handling apparatus are suppressed and information indicative of a second condition wherein the emissions to be captured by the air handling apparatus are present. A processor circuit can be used to determine a difference between the information about the transmission of light during the first condition and information about the transmission of light during the second condition. The processor circuit can be used to determine a portion of the emissions captured by the air handling apparatus using information about the determined difference.
    • 确定所捕获的排放物的方法可以包括接收指示通过空气处理装置附近区域的光透过的信息。 信息可以包括指示第一状态的信息,其中由空气处理装置捕获的发射被抑制,并且指示存在由空气处理装置捕获的发射的第二状态的信息。 可以使用处理器电路来确定关于第一状态期间的光的传输的信息与关于在第二状态期间的光的传输的信息之间的差异。 处理器电路可以用于使用关于所确定的差的信息来确定由空气处理设备捕获的排放物的一部分。
    • 3. 发明授权
    • Fluid body flow visualization device and visualization method
    • 流体身体流动可视化装置和可视化方法
    • US09182422B2
    • 2015-11-10
    • US13883961
    • 2011-11-04
    • Kazuteru HoshishimaNoriaki Kimura
    • Kazuteru HoshishimaNoriaki Kimura
    • G01N21/00G01P13/00G01M9/06G01P5/00G01S17/89
    • G01P13/0093G01M9/067G01P5/001G01S17/89
    • When a flow of a liquid body around a measuring object is visualized, a first liquid body as a tracer is supplied from a nozzle hole into a flow field of a second liquid body, and a laser beam having a wavelength optically absorbed by the first liquid body is irradiated in a manner such that the laser beam traverse across the flow field. At this point, the irradiation position of the laser beam is controlled in such a manner that the flow field is scanned with the laser beam. On the other hand, the laser beam that has passed through the flow field is received and a position where the first liquid body traverses the laser beam is obtained using the scan intensity signal of the received laser beam so that the flow of the second liquid body is visualized. The position where the first liquid body traverses the laser beam can be obtained based on a position on a time axis where a value of the scan intensity signal is less than a set threshold. According to the above described visualization, the flow field can reliably be visualized even for the high-speed fluid body.
    • 当可视化测量物体周围的液体的流动时,将作为示踪剂的第一液体体从喷嘴孔供应到第二液体的流场中,并且具有由第一液体光学吸收的波长的激光束 以使得激光束横过流场的方式照射身体。 此时,以激光束扫描流场的方式控制激光束的照射位置。 另一方面,接收通过流场的激光束,利用所接收的激光束的扫描强度信号获得第一液体横穿激光束的位置,使第二液体的流动 是可视化的。 可以基于扫描强度信号的值小于设定阈值的时间轴上的位置来获得第一液体穿过激光束的位置。 根据上述可视化,即使对于高速流体体也可以可视地显示流场。
    • 8. 发明授权
    • Optical temperature measurement techniques utilizing phosphors
    • 利用荧光体的光学温度测量技术
    • US4560286A
    • 1985-12-24
    • US558305
    • 1983-12-05
    • Kenneth A. Wickersheim
    • Kenneth A. Wickersheim
    • G01J5/48G01J5/60G01K11/32G01N21/31G01J5/02
    • G01M9/067G01J5/48G01J5/60G01K11/3213
    • A technique of temperature measurement wherein an object or environment to be measured is provided with a phosphor material layer that emits at least two optically isolatable wavelength ranges whose intensity ratio depends upon the object or environment temperature, the emitted radiation being brought to a detector by an optical system that may include an optical fiber. Several specific applications of this technique are disclosed, such as temperature monitoring of electrical equipment and industrial processing, medical temperature instrumentation including the use of disposable elements that contain a small quantity of the temperature dependent phosphor, special and multiple probes, the use of liquid phosphors, and a phosphor paint for monitoring surface temperatures.
    • 一种温度测量技术,其中要测量的物体或环境设置有荧光体材料层,其发射其强度比取决于物体或环境温度的至少两个可光学分离的波长范围,所发射的辐射通过 光学系统,其可以包括光纤。 公开了该技术的几个具体应用,例如电气设备和工业加工的温度监测,包括使用含有少量温度依赖性荧光体的一次性元件的医疗温度仪器,特殊和多个探针,液体荧光体的使用 ,以及用于监测表面温度的荧光体涂料。
    • 9. 发明授权
    • Optical temperature measurement technique utilizing phosphors
    • 利用荧光体的光学温度测量技术
    • US4448547A
    • 1984-05-15
    • US167691
    • 1980-07-10
    • Kenneth A. Wickersheim
    • Kenneth A. Wickersheim
    • G01J5/48G01J5/60G01K11/32G01N21/31
    • G01M9/067G01J5/48G01J5/60G01K11/3213
    • A technique of temperature measurement wherein an object or environment to be measured is provided with a phosphor material layer that emits at least two optically isolatable wavelength ranges whose intensity ratio depends upon the object or environment temperature, the emitted radiation being brought to a detector by an optical system that may include an optical fiber. Several specific applications of this technique are disclosed, such as temperature monitoring of electrical equipment and industrial processing, medical temperature instrumentation including the use of disposable elements that contain a small quantity of the temperature dependent phosphor, special and multiple probes, the use of liquid phosphors, and a phosphor paint for monitoring surface temperatures.
    • 一种温度测量技术,其中要测量的物体或环境设置有荧光体材料层,其发射其强度比取决于物体或环境温度的至少两个可光学分离的波长范围,所发射的辐射通过 光学系统,其可以包括光纤。 公开了该技术的几个具体应用,例如电气设备和工业加工的温度监测,包括使用含有少量温度依赖性荧光体的一次性元件的医疗温度仪器,特殊和多个探针,液体荧光体的使用 ,以及用于监测表面温度的荧光体涂料。