Novel excitaion waveforms and signal processing for electromagnetic flowmetering

Tsiknakis, E.

January 1988

No description available.

629.8

Digital control/flowmeter

Cross-correlation flow measurements in liquid-gas mixtures

Sidney, John Kenneth

January 1989

No description available.

532

Flowmeter development

A multichannel correlation signal processor for flow measurement

Keech, R. P.

January 1984

No description available.

621.37

Flowmeter signal processor

Mass flow measurement of pneumatically conveyed solids

Yan, Yong

January 1992

No description available.

621.31042

Flowmeter; Solids flow

Experimental and numerical investigation of vortex shedding

Salem, Abubaker Awidat

January 1998

No description available.

532

Flowmeter; Mass; Flow velocities

Response of a slotted plate flow meter to horizontal two phase flow

Muralidharan, Vasanth

17 February 2005

The slotted plate flow meter has been widely tested as an obstruction flow meter during the past several years. It has been tested for both single-phase flows as well as for two-phase flows. Previous studies have revealed that the slotted plate flow meter is always better in performance and accuracy than the standard orifice plate flow meter. This study is primarily based on how a slotted plate responds to horizontal two-phase flow with air and water being used as the working fluids. The plates under consideration are those with beta ratios of 0.43 and 0.467. Experiments have been performed with six different configurations of the slotted plate test sections. The performances of the slotted plate flow meters will be compared to that of a standard orifice plate flow meter and then with a venturi. The effects of varying the upstream quality of the two-phase flow on the differential pressure and the coefficient of discharge of the slotted plates, the standard orifice plate and the venturi will be evaluated. Response characteristics at low differential pressures will be investigated. Tests for repeatability will be performed by studying the effects of the gas Reynolds number and the upstream quality on the differential pressure. The differential pressures across the slotted plates, the standard orifice plate and the venturi will be compared. Reproducibility will be evaluated by comparing the data obtained from all six different configurations. One of the main objectives of this study is to arrive at the best suitable procedure for accurately measuring the flow rate of two-phase flow using the slotted plate flow meter.

two phase flow

slotted plate

flowmeter

experiment

Response of a slotted plate flow meter to horizontal two phase flow

Muralidharan, Vasanth

17 February 2005

The slotted plate flow meter has been widely tested as an obstruction flow meter during the past several years. It has been tested for both single-phase flows as well as for two-phase flows. Previous studies have revealed that the slotted plate flow meter is always better in performance and accuracy than the standard orifice plate flow meter. This study is primarily based on how a slotted plate responds to horizontal two-phase flow with air and water being used as the working fluids. The plates under consideration are those with beta ratios of 0.43 and 0.467. Experiments have been performed with six different configurations of the slotted plate test sections. The performances of the slotted plate flow meters will be compared to that of a standard orifice plate flow meter and then with a venturi. The effects of varying the upstream quality of the two-phase flow on the differential pressure and the coefficient of discharge of the slotted plates, the standard orifice plate and the venturi will be evaluated. Response characteristics at low differential pressures will be investigated. Tests for repeatability will be performed by studying the effects of the gas Reynolds number and the upstream quality on the differential pressure. The differential pressures across the slotted plates, the standard orifice plate and the venturi will be compared. Reproducibility will be evaluated by comparing the data obtained from all six different configurations. One of the main objectives of this study is to arrive at the best suitable procedure for accurately measuring the flow rate of two-phase flow using the slotted plate flow meter.

two phase flow

slotted plate

flowmeter

experiment

A Real-Time Monitoring of Fluids Properties in Tubular Architectures

Nour, Maha A.

10 1900

Real-time monitoring of fluid properties in tubular systems, such as viscosity, flow rate, and pressure, is essential for industries utilizing the liquid medium. Today such fluid characteristics are studied off-line using laboratory facilities that can provide accurate results. Nonetheless, it is inadequate to match the pace demanded by the industries. Therefore, off-line measurements are slow and ineffective. On the other hand, commercially available real-time monitoring sensors for fluid properties are generally large and bulky, generating considerable pressure reduction and energy loss in tubular systems. Furthermore, they produce significant and persistent damage to the tubular systems during the installation process because of their bulkiness. To address these challenges, industries have realigned their attention on non-destructive testing and noninvasive methodologies installed on the outer tubular surface to avoid flow disturbance and shutting systems for installations. Although, such monitoring sensors showed greater performance in monitoring and inspecting pipe health conditions, they are not effective for monitoring the properties of the fluids. It is limited to flowmeter applications and does not include fluid characteristics such as viscometers. Therefore, developing a convenient real-time integrated sensory system for monitoring different fluid properties in a tubular system is critical. In this dissertation, a fully compliant compact sensory system is designed, developed, examined and optimized for monitoring fluid properties in tubular architectures. The proposed sensor system consists of a physically flexible platform connected to the inner surface of tubes to adopt the different diameters and curvature shapes with unnoticeable flow disruption. Also, it utilizes the microchannel bridge to serve in the macro application inside pipe systems. It has an array of pressure sensors located bellow the microchannel as the primary measurement unit for the device. The dissertation is supported by simulation and modeling for a deeper understanding of the system behavior. In the last stage, the sensory module is integrated with electronics for a fully compliant stand-alone system.

Flowmeter

Viscometer

Sensors

Pipe

Tube

Flexible

The Effects of Meter Orientation Downstream of a Short Radius Elbow on Electromagnetic Flow Meters

Justensen, Jared C.

01 May 2016

Electromagnetic flowmeters (known as magnetic flow meters) are a widely used type of flowmeter. The accuracy of magnetic flow meters are a function of several factors, not the least of which is the flow condition inside the pipe. It has been shown that disturbances in the velocity profile affects the accuracy of a magnetic flow meter (Luntta, 1998). Accordingly, manufacturers of magnetic flow meters give installation guidelines. These guidelines help prevent the user from installing the meter in a pipe configuration that is likely to cause the meter to produce inaccurate results. Although most manufacturers provide recommendations about the amount of straight pipe that is necessary upstream of the meter, little is said about the orientation of the meter in relation to upstream disturbances. This study examines the performance of magnetic flow meters when positioned at two different orientations: EIP (electrodes in plane with an upstream 90-degree short radius elbow) and EOP (electrodes out of plane). Four different meters were included in the study in which a baseline straight pipe test was first performed using over fifty diameters of straight pipe upstream of each meter. The straight pipe test was used to determine the baseline accuracy of each of the meters over a velocity range that is typical for the size and function of the meters. Meters were then installed at five different locations downstream from a 90-degree short-radius elbow. At each location the meters were tested in two orientations at five different flow rates. The intent of the research is to show that the orientation of a magnetic flow meter affects the meter’s ability to produce accurate flow readings when it is installed downstream of a flow disturbance. The results from this research showed a significant shift in measurement accuracy when the meter was in EIP and EOP orientations. All of the meters in the study produced accuracy readings at one point of another that were outside the specified accuracy from the meter manufacturer. Interestingly, the meters that had a larger manufacturer specified accuracy produced smaller shifts in accuracy when comparing the test results under EIP and EOP conditions. The results of the research are given in the section entitled “Results and Discussion” as well as in the Appendix A.

Electromagnetic Flowmeter

Flowmeter

Short-Radius Elbo

Weight Function

Civil and Environmental Engineering

Industrialisering av designkoncept för LPG-mätare

Asp, Tobias

January 2019

Inom bränsleindustrin satsas det på alternativa bränslen. Ett sådant bränsle är gasol(Eng: liquified petroleum gas, LPG). Vid påfyllning av LPG används en bränslepumpoch en av de viktigaste delarna i pumpen är bränslemätaren. På företaget Dover fuelingsolutions finns ett designkoncept för en flödesmätare som företaget vill industrialisera.Syftet är att detta examensarbete ska bidra till vidareutvecklingen av bränslemätare utformadeför att hantera alternativa bränslen som LPG. Målet med examensarbetet äratt konstruera om ett framtaget koncept för en bränslemätare där konceptet utvärderasoch vidareutvecklas med fokus på tillverkning med sandgjutning. Den nya mätarenkonstrueras med datorstödd konstruktion (Eng: Computer-Aided Design, CAD) och medmålet att CAD solider för sandgjutning och bearbetning för prototyptillverkningen skatas fram. Vidare dimensioneras mätarens skruvförband och hållfasthetsberäkningar förmätaren görs med finita elementmetoden. Den omkonstruerade flödesmätaren är konstrueradför att uppfylla kraven för sandgjutning. Flödesmätaren uppfyller dessa krav väl ochär redo för tillverkning. / Within the fuel industry companies currently invest alot in alternative fuels. One suchfuel is liquified petroleum gas (LPG). LPG is filled into vehicles or tanks through a fuelpump. One of the most crucial components in a fuel pump is the fuel meter. At Doverfueling solutions a concept design for a flow meter that can handle LPG and works withpositive displacement has been developed. Through the present work the company wishto further develop and industrialize this concept. This work will contribute to the furtherdevelopment of fuel meters capable of handling alternative fuels such as LPG. In thisthesis a concept is further developed with focus on being able to be manufactured withsand casting. The new meter is constructed with Computer-Aided Design (CAD) andCAD solids for sand casting is developed. The screw joints that holds the flow meterscomponents together is dimensioned. A finite element analysis is made for all of the meterscomponents. The reconstructed flow meter is constructed to satusfy the demands thereare for a component that is going to be sand cast.

Flödesmätare

LPG

Sandgjutning

Positivt

Deplacement

flowmeter

Engineering and Technology

Teknik och teknologier