Abstract: A method for noninvasive determination of the flow or the flow rate in an electrically conductive object, through which a gaseous medium flows, by an acoustic flow meter, wherein an emitting transducer is arranged on the object wall—and a receiving transducer is arranged spaced apart in the longitudinal direction of the object on the object wall, an ultrasonic wave is generated in the object by the emitting transducer, which is partially coupled as a longitudinal wave into the medium, and a useful signal, which at least partially results due to the longitudinal wave, is detected by the receiving transducer, the flow rate is determined from the useful signal via an evaluation device, the emitting transducer is arranged in a first position in the circumferential direction around a longitudinal axis of the object and the receiving transducer is arranged in a second position, varied in relation to the first position around the longitudinal axis, outside the main beam of the ultrasonic wave, and the width of the m

Abstract: A method is provided for non-invasively determining properties of a multiphase flow which flows through an electrically conductive object. Using a single set-up having a plurality of EMAT transducers, at least one property of the multiphase flow is determined by means of at least one of a plurality of measurement methods. A device is also provided for non-invasively determining properties of a multiphase flow which flows through an electrically conductive object. At least four EMAT transducers are positionable upstream along a first object cross-section at or near the object wall and at least four EMAT transducers are positionable downstream along a second object cross-section at or near the object wall.

Abstract: A method for noninvasive determination of the flow or the flow rate in an electrically conductive object, through which a gaseous medium flows, by means of an acoustic flow meter, wherein an emitting transducer is arranged on the object wall- and a receiving transducer is arranged spaced apart in the longitudinal direction of the object on the object wall, an ultrasonic wave is generated in the object by means of the emitting transducer, which is partially coupled as a longitudinal wave into the medium, and a useful signal, which at least partially results due to the longitudinal wave, is detected by the receiving transducer, wherein the flow rate is determined from the useful signal via an evaluation device, wherein the emitting transducer is arranged in a first position in the circumferential direction around a longitudinal axis of the object and the receiving transducer is arranged in a second position, varied in relation to the first position around the longitudinal axis, outside the main beam of the ultr

Abstract: A method for pipeline inspection is provided. The method includes carrying out an inspection run in which a pipeline inspection apparatus travels inside a pipeline, wherein sensors on the apparatus are configured to conduct an in-line inspection of wall material along a length of the pipeline. The method includes initiating a first inspection mode to produce a primary inspection data set, wherein the first inspection mode comprises an inspection of the pipeline wall material upstream and downstream of a location of a dented region in the pipeline, selectively initiating a second inspection mode to produce a secondary inspection data set, wherein the second inspection mode includes an inspection of the pipeline wall material in the dented region in the length of the pipeline, and combining the primary and the secondary inspection data sets to provide a direct assessment for the presence of cracks and/or corrosion in wall material along the pipeline.

Abstract: An improved method of predistorting a transmit signal is disclosed whereby the distortions occurring in all nonlinear subassemblies are compensated for using a particularly suited feedback signal. Also disclosed are a transmitter, a transmitting station, and a communications system using the method. The transmit signal, before being converted to the desired radio frequency, is digitally predistorted at baseband by digital signal processing means which are controlled by the feedback signal. This signal is generated by a detector measuring the spectral power of the transmit signal at the desired radio frequency both within a first frequency range, which lies within the transmission spectrum, and within a second frequency range, which lies outside the transmission spectrum. The digital predistortion disclosed is flexibly parameterized and is adapted by the feedback control to the current behavior of the transmitter subassemblies.