Class / Patent application number | Description | Number of patent applications / Date published |
073590000 | In detection of a liquid reaction, a chemical reaction, or a nuclear reaction | 6 |
20080264170 | Analytical Apparatus with Array of Sensors and Calibrating Element - Analytical apparatus for analysing at least one substance has an array of sensors ( | 10-30-2008 |
20090049917 | Method for Cavitation Threshold Characterization and Control - A method for characterizing cavitation that occurs in a fluid exposed to acoustic energy. The method comprises the steps of exposing a volume of process fluid to acoustic energy at a specified power level; measuring the photon output from the fluid over a period of time; and when the photon output deviates from a desired level, initiating a remedial step to bring the photon output back to approximately the desired level. | 02-26-2009 |
20090120188 | STIRRING APPARATUS, ABNORMALITY DETERMINING METHOD OF SAME, AND ANALYZER - A stirring apparatus includes an acoustic wave generating unit that is provided in a vessel keeping a liquid and generates an acoustic wave toward the liquid, the liquid being stirred by the acoustic wave; a driving unit that drives the acoustic wave generating unit; a detecting unit that detects a reflected power reflected from the acoustic wave generating unit; and a determining unit that determines a presence of an abnormality based on the reflected power detected by the detecting unit. The determining unit determines the presence of the abnormality when a difference between an in-operation reflected power which is reflected from, during an operation, the acoustic wave generating unit and a reference reflected power of the acoustic wave generating unit at a same driving frequency exceeds a predetermined value. | 05-14-2009 |
20090173158 | MEASUREMENT CHAMBER AND RESONATOR - The invention relates to an apparatus comprising a measurement chamber and a resonator, which can be integrated in the measurement chamber via a quick-action closure, for the liquid sensor system and for verification and measurement of the concentration of materials, substances, particles and/or microorganisms in liquids. The invention is characterized in that the resonator is held only on its outer circumference by a thin elastomer ring, and in that at the radial distance of the external diameter of the resonator, the elastomer ring on the one hand rests on an upper sealing ring of the measurement chamber, forming a seal, and on the other hand rests on a holding ring. | 07-09-2009 |
20120285246 | NUCLEAR REACTOR VIBRATION MONITORING DEVICE AND MONITORING METHOD THEREOF - According to an embodiment, a nuclear reactor monitoring device comprises: an ultrasonic wave transmission means which is installed on the outside surface of a reactor pressure vessel and transmits ultrasonic pulses to the interior of the reactor pressure vessel; an ultrasonic wave receiving means which is installed on the outside surface of the reactor pressure vessels and receives reflected pulses including ultrasonic waves from the ultrasonic pulses reflected by an inspection object in the reactor pressure vessel; a preprocessing means which specifies and removes the reflected ultrasonic pulses generated in the wall of the reactor pressure vessel from the reflected pulse signal received by the ultrasonic wave receiving means or selectively extracts the reflected pulse signal; and a calculation means which determines the vibration of the inspection object from the reflection pulse signal processed by the preprocessing means in accordance with the observation time of the inspection object. | 11-15-2012 |
20140144238 | SENSOR ARRAY FOR PIPELINE CORROSION MONITORING - An ultrasonic sensor assembly for a test pipe includes a sensor array. The sensor array includes a plurality of sensor elements for detecting a characteristic of the test pipe and included a flexible backing material on which the plurality of sensor elements are supported. The sensor array is adjustable in length to form an adjusted length. An excess portion is removed from the sensor array to form the adjusted length. This adjusted length of the sensor array substantially matches a perimeter distance around an outer surface of the test pipe. An associated method of positioning the ultrasonic sensor assembly on the test pipe is also provided. | 05-29-2014 |