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公开(公告)号:US20150159867A1
公开(公告)日:2015-06-11
申请号:US14097549
申请日:2013-12-05
Applicant: General Electric Company
Inventor: Romano Patrick , Matthew Francis Lemmon , Subrat Nanda , Jonathan David White
CPC classification number: F23M11/00 , F23N1/00 , F23N2025/04 , F23N2041/20 , G01M15/14
Abstract: A system for assessing combustor health during operation of the combustor includes a combustor, a sensor configured to sense combustion dynamics pressure data from the combustor, and a computing device that is in communication with the sensor and configured to receive the combustion dynamics pressure data from the sensor. The computing device is programed to extract a feature from the combustion dynamics pressure data and generate feature values for the feature over a period of time. The computing device is also programmed to generate a cumulative form of the feature that is based on the feature values over a time series and to compare the cumulative form to a historical cumulative form.
Abstract translation: 用于在燃烧器运行期间评估燃烧器健康的系统包括燃烧器,被配置为感测来自燃烧器的燃烧动力学压力数据的传感器,以及与传感器连通并被配置为从燃烧器接收来自燃烧器的燃烧动态压力数据的计算装置 传感器。 编程计算设备以从燃烧动态压力数据中提取特征并且在一段时间内生成特征的特征值。 计算设备还被编程为生成基于时间序列上的特征值的特征的累积形式,并将累积形式与历史累积形式进行比较。
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公开(公告)号:US20150160096A1
公开(公告)日:2015-06-11
申请号:US14097540
申请日:2013-12-05
Applicant: General Electric Company
Inventor: Romano Patrick , Matthew Francis Lemmon , Subrat Nanda , Jonathan David White , Achalesh Kumar Pandey
CPC classification number: G01M15/14 , F05D2260/80 , F23M11/00 , F23N5/16 , F23N5/242 , F23N2023/48 , F23N2023/54 , F23N2041/20 , F23R3/00 , F23R2900/00005 , Y02T50/677
Abstract: A system for detecting an at-fault combustor includes a sensor that is configured to sense combustion dynamics pressure data from the combustor and a computing device that is in electronic communication with the sensor and configured to receive the combustion dynamics pressure data from the sensor. The computing device is programmed to convert the combustion dynamics pressure data into a frequency spectrum, segment the frequency spectrum into a plurality of frequency intervals, extract a feature from the frequency spectrum, generate feature values for the feature within a corresponding frequency interval over a period of time, and to store the feature values to generate a historical database. The computing device is further programmed to execute a machine learning algorithm using the historical database of the feature values to train the computing device to recognize feature behavior that is indicative of an at-fault combustor.
Abstract translation: 用于检测故障期间燃烧器的系统包括传感器,其被配置为感测来自燃烧器的燃烧动力学压力数据和与传感器电子通信并被配置为从传感器接收燃烧动力学压力数据的计算设备。 计算装置被编程为将燃烧动态压力数据转换成频谱,将频谱分段成多个频率间隔,从频谱中提取特征,在一段时间内在对应的频率间隔内生成特征的特征值 的时间,并存储特征值以生成历史数据库。 计算设备还被编程为使用特征值的历史数据库来执行机器学习算法,以训练计算设备以识别指示故障燃烧器的特征行为。
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公开(公告)号:US09500563B2
公开(公告)日:2016-11-22
申请号:US14097540
申请日:2013-12-05
Applicant: General Electric Company
Inventor: Romano Patrick , Matthew Francis Lemmon , Subrat Nanda , Jonathan David White , Achalesh Kumar Pandey
CPC classification number: G01M15/14 , F05D2260/80 , F23M11/00 , F23N5/16 , F23N5/242 , F23N2023/48 , F23N2023/54 , F23N2041/20 , F23R3/00 , F23R2900/00005 , Y02T50/677
Abstract: A system for detecting an at-fault combustor includes a sensor that is configured to sense combustion dynamics pressure data from the combustor and a computing device that is in electronic communication with the sensor and configured to receive the combustion dynamics pressure data from the sensor. The computing device is programmed to convert the combustion dynamics pressure data into a frequency spectrum, segment the frequency spectrum into a plurality of frequency intervals, extract a feature from the frequency spectrum, generate feature values for the feature within a corresponding frequency interval over a period of time, and to store the feature values to generate a historical database. The computing device is further programmed to execute a machine learning algorithm using the historical database of the feature values to train the computing device to recognize feature behavior that is indicative of an at-fault combustor.
Abstract translation: 用于检测故障期间燃烧器的系统包括传感器,其被配置为感测来自燃烧器的燃烧动力学压力数据和与传感器电子通信并被配置为从传感器接收燃烧动力学压力数据的计算设备。 计算装置被编程为将燃烧动态压力数据转换成频谱,将频谱分段成多个频率间隔,从频谱中提取特征,在一段时间内在对应的频率间隔内生成特征的特征值 的时间,并存储特征值以生成历史数据库。 计算设备还被编程为使用特征值的历史数据库来执行机器学习算法,以训练计算设备以识别指示故障燃烧器的特征行为。
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