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    • 6. 发明授权
    • Method and apparatus for measuring work performed by a compressor
    • 用于测量由压缩机执行的工作的方法和装置
    • US07186094B2
    • 2007-03-06
    • US10397889
    • 2003-03-26
    • Carl E. EdlundRalph E. HarrisKurt A. Franke
    • Carl E. EdlundRalph E. HarrisKurt A. Franke
    • F04B49/00
    • F04B51/00F04B49/00F04B2201/0201F04B2201/0206F04B2201/0801F04B2201/121F04B2205/01F04B2205/05
    • An apparatus and method for monitoring a reciprocating member of a reciprocating piston compressor is presented. The apparatus and method provide a means for measuring parameters of the reciprocating member, such as road load or cross-head temperature and the like, and wirelessly transmitting the data to a receiver. A mobile assembly is attached to a reciprocating member of the compressor, the mobile assembly having a sensor assembly, a wireless transmitter and a power generation assembly. The sensor assembly measures a parameter of the reciprocating member and generates a representative sensor signal. The wireless transmitter wirelessly transmits a corresponding data signal to a stationary assembly mounted nearby. The power assembly powers the transmitter and sensor assembly. The measured data is used, in conjunction with other measurements, such as a crankshaft encoder, to calculate the work performed by the compressor, the power used by the compressor and other information. The compressor utilization is then optimized based on the gathered information.
    • 提出了一种用于监测往复式活塞式压缩机的往复运动件的装置和方法。 该装置和方法提供了一种用于测量往复运动构件的参数的装置,例如道路负荷或十字头温度等,并将数据无线地传送到接收器。 移动组件连接到压缩机的往复运动构件,移动组件具有传感器组件,无线发射器和发电组件。 传感器组件测量往复构件的参数并产生代表性的传感器信号。 无线发射机将相应的数据信号无线传输到安装在附近的固定组件。 电源组件为变送器和传感器组件供电。 测量数据与其他测量结合使用,例如曲轴编码器,以计算压缩机执行的功能,压缩机使用的功率和其他信息。 然后基于收集的信息优化压缩机利用率。
    • 8. 发明授权
    • High frequency oscillatory ventilator and respiratory measurement system
    • 高频振荡呼吸机和呼吸测量系统
    • US5555880A
    • 1996-09-17
    • US190322
    • 1994-01-31
    • Dean C. WinterRalph E. HarrisKevin S. Honeyager
    • Dean C. WinterRalph E. HarrisKevin S. Honeyager
    • A61M16/00
    • A61M16/0096A61M16/0069A61M2016/0039
    • A high frequency oscillatory ventilator for infants and adults using feedback control to maintain either the desired tidal volume or pressure delivered to the subject. The inspiratory to expiratory time ratio of the ventilator is variable. The ventilator corrects the measured pressure for arbitrarily-sized endotracheal tubes and calculates the actual pressure or tidal volume delivered to the subject. The ventilator also separates the source of the tidal volume oscillations from the patient circuit with a flexible membrane or diaphragm, allowing transmission of oscillating tidal volumes while blocking mean airway pressures. The patient circuit is flexible, but fabricated from low-compliance material to minimize the loss of tidal volume. The ventilator uses feedback control of the exhaust flow to maintain mean airway pressure in the presence of an independently controlled bias flow. Further, a respiratory impedance measurement system is built into or connected to the patient circuit which monitors changes in lung mechanics while the patient is connected to the high frequency ventilator without changing mean airway pressure or removing the patient from the ventilator.
    • 用于婴儿和成年人的高频振荡呼吸机,使用反馈控制来保持传递给受试者的所需潮气量或压力。 呼吸机吸气与呼气时间的比值是可变的。 呼吸机校正任意尺寸的气管插管的测量压力,并计算输送给受试者的实际压力或潮气量。 呼吸机还通过柔性膜或隔膜将潮气量振荡源与患者回路分开,允许振荡潮气量的传播,同时阻止平均气道压力。 患者电路是柔性的,但由低顺应性材料制成,以尽量减少潮气量的损失。 呼吸机使用排气流的反馈控制来在存在独立控制的偏流的情况下维持平均气道压力。 此外,呼吸阻抗测量系统内置或连接到患者电路,其在病人连接到高频呼吸机而不改变平均气道压力或从呼吸机移除患者时监测肺力学变化。
    • 9. 发明授权
    • Method for detecting and specifying compressor cylinder leaks
    • 检测和指定压缩机气缸泄漏的方法
    • US5471400A
    • 1995-11-28
    • US248458
    • 1994-05-24
    • Anthony J. SmalleyC. Richard GerlachRalph E. Harris
    • Anthony J. SmalleyC. Richard GerlachRalph E. Harris
    • G01M3/26G01F22/02G01F25/00G06G7/57
    • G01M3/26
    • A computer-based system and method detects and specifies valve and ring leaks in reciprocating compressors of the type used in natural gas transmission networks. The system employs a method comprising the following steps. The cylinder pressure is measured as a function of cylinder volume to obtain a measured PV card. A predictive model then calculates a predicted PV card for the subject compressor cylinder without including effects of simulated leaks. The predicted PV card is them compared to the measured PV card. The nature and character of the differences between the measured and predicted PV cards indicates whether a leak in the subject compressor cylinder is a suction valve leak, a discharge valve leak, or a piston ring leak. The predictive model is then iterated with simulations of the indicated leak included until the resulting predicted PV card matches the actual measured PV card for the compressor cylinder. The final value of the leak parameters in the model required for the match indicate the nature and magnitude of a corresponding actual leak in the compressor cylinder. Other useful information such as the efficiency of the compressor system with and without the leak and the economic impact of the leak are also derived from the iterative match process.
    • 基于计算机的系统和方法检测并指定在天然气传输网络中使用的往复式压缩机中的阀和环泄漏。 该系统采用包括以下步骤的方法。 测量气缸压力作为气缸体积的函数,以获得测量的PV卡。 然后,预测模型计算目标压缩机气缸的预测PV卡,而不包括模拟泄漏的影响。 他们预测的PV卡与测量的PV卡相比。 测量和预测的PV卡之间的差异的性质和性质表明主体压缩机气缸中的泄漏是吸入阀泄漏,排放阀泄漏还是活塞环泄漏。 然后通过包括指示的泄漏的模拟来迭代预测模型,直到产生的预测PV卡与压缩机气缸的实际测量PV卡匹配。 匹配所需模型中的泄漏参数的最终值表示压缩机气缸中相应的实际泄漏的性质和大小。 其他有用的信息,例如压缩机系统有无泄漏的效率和泄漏的经济影响也来自于迭代匹配过程。