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Mathematical Modelling and Simulation

Working Group 8.41

Modelling and Simulation of Fluid Flows in Metrology

In computational fluid dynamics (CFD) the Navier-Stokes equations are solved approximatly by means of numerical methods. Applications of flow simulations in the context of metrology are:

 

  • design and optimization of measurement configurations,
  • simulation and prediction of experiments, and
  • determination of the influence of different parameters on measurement uncertainty.

Applications

The research is typically motivated by current tasks in metrology, and it is often carried out in collaboration with other working groups at PTB. Some applications, on which Working group 8.41 has been or is currently working on, are listed below.

Influence of uncertain parameters in pipe flow simulations

The flow in a pipe is influenced by different parameters, e.g., uncertain initial and boundary conditions, geometry variations due to manufacturing tolerances, or inaccurate material parameters. The uncertainty in such parameters leads to measurement errors of flow meters. For the application of flow meters under field conditions, which are characterized by disturbed inflow profiles, it must be ensured that the measurement error is below a certain threshold.

Working group 8.41 investigated in cooperation with Working group 7.53 the influence of disturbed inflow profiles on the measurement result of a single-path ultrasonic flow meter. For this, the polynomial chaos method in combination with computational fluid dynamics (CFD) was used. Two subsequent 90° bends were used to create the disturbed profiles. This case is particularly interesting for metrology because combinations of double bends out-of-plane occur quite often in practice, which can lead to significant measurement errors.

Mathematical modeling and numerical simulation of multiphase flows in metrology

Multiphase flow measurement is a fundamental enabling capability in subsea oil and gas production. However, field measurements exhibit high measurement uncertainty. Therefore, the aim of the project Multiphase Flow Reference Metrology was to reduce measurement uncertainty through harmonisation between different flow laboratories and thereby enhance confidence in multiphase flow meters. Working group 8.41 simulated in close cooperation with the Czech Metrology Institute (CMI) corresponding multiphase flows. Several new modelling approaches improved the agreement between simulation results and experimental data. This leads to more realistic simulations of the formation and evolution of specific flow patterns that might have a negative influence on the measurement process.

CFD to provide support in particle metrology

Developing a national standard for soot mass concentration and opacity at PTB requires high-sensitivity instrumentation for soot generation in a wide range of particle sizes and particle number concentrations. Such high accuracy soot generators need also well-defined aerosol conditioning, dilution and homogenization process steps in order to vary e.g. the particle number concentration over the legally relevant range. In order to optimize spatial distribution of the soot particles and to develop effective mixing and dilution configurations, three-dimensional CFD simulations were carried out. Mixing characterisitcs have been predicted for different operational parameters. The work was carried out in collaboration with Working Group 3.23. 

Simulation of the temperature distribution in large storage tanks

Storage tanks for mineral oil and its derivatives can have a capacity of more than 50 million liter. Therefore a temperature change to some tenths of percent leads to a volume change of more than thousand liters. The exact measurement of the mean fluid temperature is necessary for the trading of great quantities.
In a scientific project, the mean temperature was measured in a real tank and also determined by extensive simulations. By using the CFD approach it was possible to transfer the measured data to other liquids, different weather conditions, and special filling situations.

Publications

Publication single view

Article

Title: Untersuchungen zum Temperaturverhalten von Flüssigkeiten in großen Lagertanks
Author(s): G. Wendt, R. Jost, S. Schmelter;D. Werner
Journal: Technische Sicherheit
Year: 2014
Volume: 11
Pages: 13--17
Keywords: 8.41
Tags: 8.41, Flow

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