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    • 7. 发明申请
    • Gasifier Hybrid combined cycle power plant
    • 气化炉混合联合循环发电厂
    • US20110315096A1
    • 2011-12-29
    • US13134142
    • 2011-05-31
    • Bary WilsonBrandon Ruf WilsonBarry Liss
    • Bary WilsonBrandon Ruf WilsonBarry Liss
    • F02B43/08F01D1/00
    • F01K23/067Y02E20/16Y02E20/18
    • The invention provides a system and method for the efficient, clean and simultaneous conversion of multiple fuels, including but not limited to waste derived gas, liquid and solid phase fuels, to electrical energy. The present invention used a closely coupled combined thermal cycle system based on an air fed gasifier and an internal combustion engine. Steam generated by exhaust heat from an internal combustion engine and from the combustion of syngas produced by the gasifier is used to power an admission steam turbine in an efficient system in which components such as water treatment, heat recovery, and other components are common to gasifier and the internal combustion engine. The invention offers several advantages over other combined cycle power plants employing gasifiers. These advantages include fuel flexibility, efficient operation at generating capacities in the 30 to 120 MW range, commonality of components, and the capability to provide both base load and demand load power from a variety of waste derived fuels.
    • 本发明提供了一种用于将多种燃料(包括但不限于废气,液体和固相燃料)有效,清洁和同时转化为电能的系统和方法。 本发明使用基于供气气化器和内燃机的紧密耦合的组合热循环系统。 由内燃机排气产生的蒸汽和由气化器产生的合成气的燃烧产生的蒸汽用于为进气蒸汽轮机提供一种有效的系统,其中诸如水处理,热回收和其它组分的组分对气化器是常见的 和内燃机。 本发明提供了优于使用气化器的其它联合循环发电厂的几个优点。 这些优点包括燃料灵活性,在30至120兆瓦范围内产生能力的有效运行,部件的通用性以及从各种废物衍生的燃料提供基本负载和需求负载功率的能力。
    • 8. 发明授权
    • Component specific machine wear determination with x-ray fluorescence spectrometry
    • 用X射线荧光光谱法测定组分特异性机器磨损
    • US07184515B2
    • 2007-02-27
    • US10949962
    • 2004-09-24
    • Bary Wilson
    • Bary Wilson
    • G01N23/223
    • G01N33/2888G01N23/223G01N2223/076
    • X-ray fluorescence analysis is used to determine wear of machine parts on a component-specific basis. The individual wetted wear surfaces of the machine are provided with a signature tagant composition, and as the components wear, the amounts of each tagant in the lubricating fluid are determined by the x-ray fluorescence analysis. An analysis system tracks the amounts of the tagants in the lubricating fluid, and with information of the signature tagant composition of each wear surface, calculates wear rate information for each of the wear surfaces. This component-specific wear information is then used in scheduling maintenance and predicting failures of the machine.
    • X射线荧光分析用于确定机器零件在零件特定基础上的磨损。 机器的单个润湿磨损表面设置有签名标签组合物,并且作为组分磨损,通过x射线荧光分析确定润滑液中每个标签的量。 分析系统跟踪润滑流体中的标签的量,并且利用每个磨损表面的签名标签组合物的信息,计算每个磨损表面的磨损率信息。 然后将该组件特定的磨损信息用于调度维护和预测机器的故障。