The use of T₁/T₂-relaxation effects for NMR flow sensors in multiphase flow

Bayer, A.

January 1994

No description available.

532

Oil flow measurement

Numerical simulation of flow through fluidic flowmeters

James, Richard

January 1994

No description available.

532

Volumetric flow measurement

The development and modelling of a novel clamp-on ultrasonic-thermal and ultrasonic multiple reflection flowmeter for liquid applications

Law, Masa

January 1994

The development of a novel combined 'ultrasonic/thermal' with 'ultrasonic multiple reflections' clamp-on meter for measuring a wide flowrate range of clean liquids in small diameter pipes is presented. Current existing flowmeters based on ultrasound cannot measure very low flowrates for single phase liquids. The ultrasonic/thermal technique can measure single phase flows in the range 0 to 0.6 m s⁻¹ in pipes with diameters as small as 15 mm. It can also detect and measure reverse flows. The minimum flowrate for the ultrasonic multiple reflection technique is about 0.55 m s⁻¹, and theoretically, the measurement accuracy increases with increased flow velocity. The ultrasonic/thermal technique is based on a heating element and transducer pair(s) which can be clamped to the outside of a pipe. With the heaters switched on, the changes in the temperature of the pipe and the liquid inside it result in changes in transit time. The flowrate can be therefore estimated by either the transit time difference across the pipe at the two symmetric locations with respect to the heater centre, or at one location with a heater off/on comparison. The latter approach was felt to be the promising for low flowrate measurements and therefore selected for the numerical and the experimental investigations. The multiple reflection technique was developed based on the conventional transit time flowmeter. This technique extended the measuring range of the flowmeter and provided cross calibration for the ultrasonic/thermal technique. A computer model was developed for the ultrasonic multiple reflection technique. However, there was insufficient experimental data to confirm the computer prediction. Results from computational fluid dynamics (CFD) analysis of the meter are presented. For vertical pipes an axisymmetric model was used, but the presence of buoyancy forces required the use of a 3-D model for horizontal pipes. Temperature and velocity distributions and ultrasonic transit times have been computed and are presented. In order to overcome the problem of mode conversion and refraction at the pipe wall/transducer mounting interface, novel transducers and mounting blocks are presented. A prototype heater and ultrasonic transducer system together with electronics for signal generation and transit time measurement have been designed and constructed. A hydraulic system has also been designed and constructed for testing the developed clamp-on flowmeter. Experimental results from this apparatus are presented and compared with the CFD predictions, and a technique for compensating for variations in inlet temperature is described. The full scale difference between the computed values and experimental results of the meter for low flowrate measurement was about 3.5%.

532

Flow measurement

Flow patterns inside a turbine type flowmeter

Ferreira, V. C. S.

January 1988

No description available.

532

Fluid flow measurement

Thermophysical properties of gases and gas mixtures for critical flow nozzle applications

Stewart, David G.

January 2000

No description available.

532

Flow measurement

Ultrasonic range gated flow measurement using a microprocessor controlled digital correlator

Pogaridis, Dimitrios

January 1989

No description available.

534

Ultrasonic flow measurement

Two-phase pressure loss in fittings

Macarios, Guy

January 1979

No description available.

Two-phase flow -- Measurement.

Flow stress and structure in two phase Zr-2.5% Nb

Rizkalla, Amin S.

January 1977

No description available.

Two-phase flow -- Measurement.

Theoretical and experimental studies of the Coriolis mass flowmeter

Sultan, G.

January 1990

The Coriolis sass flowaeter is modelled using the theory of vibrating beams. Tube deformations for the fundamental mode and the next two nodes of natural (out-of-plane) vibration are worked out for many tube geometries. An improved model taking into account the effects of elastic boundary conditions and added masses of the electromagnetic drive and detectors is also discussed. A method for predicting the optimum detection positions is suggested in relation to signal-to-noise ratio. In addition, an argument for prediction of the effects of a dilute suspension of small bubbles or particles in the fluid is presented. Finally, experimental studies are conducted in order to demonstrate the validity of the theoretical models.

532

Flow measurement techniques

Design of a cross-correlator for process measurements

Rahimzadeh, Bizhan

January 1989

No description available.

621.381045

Flow measurement instruments