Abstract: Disclosed is a flow meter with at least two measuring sensors, preferably ultrasonic sensors, spaced apart from each other, wherein the coupling of the measuring signals into and out of a fluid is performed via a coupling element According to the disclosure, the measuring channel is formed with an approximately oval or trapezoid cross-section.

Abstract: Disclosed is a flow meter with at least two measuring sensors, preferably ultrasonic sensors, spaced apart from each other, wherein the coupling of the measuring signals into and out of a fluid is performed via a coupling element which is inserted flush into a circumferential wall of a measuring channel.

Abstract: Disclosed is a flow meter with at least two measuring sensors, preferably ultrasonic sensors, spaced apart from each other, wherein the coupling of the measuring signals into and out of a fluid is performed via a coupling element which is inserted flush into a circumferential wall of a measuring channel.

Abstract: Disclosed is a flow meter with at least two measuring sensors, preferably ultrasonic sensors, spaced apart from each other, wherein the coupling of the measuring signals into and out of a fluid is performed via a coupling element According to the disclosure, the measuring channel is formed with an approximately oval or trapezoid cross-section.

Abstract: The application provides a device for measuring at least one parameter value of a suspended sediment of a fluid. The device includes a backscattering transducer module, a storage unit, and a calculation unit. The backscattering transducer module comprises a source module and a receiver module. The source module transmits at least three acoustic signals with different fixed characterizing measurement frequencies while the receiver module measures at least three echo level values of echo signals, which correspond with the at least three acoustic signals. The storage unit stores a data set of pre-determined echo level values with a data set of pre-determined suspended sediment parameter values. The calculation unit derives at least one suspended sediment parameter value from the data sets and the at least three echo level values.

Abstract: The application provides a device for measuring at least one parameter value of a suspended sediment of a fluid. The device includes a backscattering transducer module, a storage unit, and a calculation unit. The backscattering transducer module comprises a source module and a receiver module. The source module transmits at least three acoustic signals with different fixed characterising measurement frequencies while the receiver module measures at least three echo level values of echo signals, which correspond with the at least three acoustic signals. The storage unit stores a data set of pre-determined echo level values with a data set of pre-determined suspended sediment parameter values. The calculation unit derives at least one suspended sediment parameter value from the data sets and the at least three echo level values.

Abstract: The application provides an acoustic flow meter for a fluid conduit. The flow meter has one or more acoustic transmitter and receiver pairs, a holder, an interface unit, and a computer module. The acoustic transmitter and receiver pair measures a flow speed value of a fluid in the fluid conduit. The holder fixes the acoustic transmitter and receiver pair to the fluid conduit. The interface unit receives a type data, a position data, and an orientation data of a fluid disturbance element, and a position data and an orientation data of the acoustic transmitter and receiver pair. The computer module has a memory unit, a processor, an output device. The memory unit stores a relationship data set. The processor computes a flow rate of the fluid by using the relationship data set type. The output device outputs the flow rate.

Abstract: Provided are a method and a device for determining a flow rate through a pipe. A first measurement device is provided which determines the flow profile of the fluid in a first region using a Doppler frequency shift measurement method, and a second measurement device is provided which determines the flow profile of the fluid in the pipe in a second region using a travel time measurement method.

Abstract: Disclosed are a method and a device for determining a flow rate through a pipe, wherein a first measurement device is provided which determines the flow profile of the fluid in a first region by means of a Doppler frequency shift, and a second measurement device is provided which determines the flow profile of the fluid in the pipe in a second region by means of a travel time measurement method.