Your search keyword '"pressure fluctuations"' showing total 3 results

1. Design of Experiments Applied to Francis Turbine Draft Tube to Minimize Pressure Pulsations and Energy Losses in Off-Design Conditions.

Author

Favrel, Arthur, Lee, Nak-joong, Irie, Tatsuya, and Miyagawa, Kazuyoshi

Subjects

*DRAFT tubes, *FRANCIS turbines, *ENERGY dissipation, *UNSTEADY flow, *COMPUTATIONAL fluid dynamics

Abstract

This paper proposes an original approach to investigate the influence of the geometry of Francis turbines draft tube on pressure fluctuations and energy losses in off-design conditions. It is based on Design of Experiments (DOE) of the draft tube geometry and steady/unsteady Computational Fluid Dynamics (CFD) simulations of the draft tube internal flow. The test case is a Francis turbine unit of specific speed N s = 120 m-kW which is required to operate continuously in off-design conditions, either with 45% (part-load) or 110% (full-load) of the design flow rate. Nine different draft tube geometries featuring a different set of geometrical parameters are first defined by an orthogonal array-based DOE approach. For each of them, unsteady and steady CFD simulations of the internal flow from guide vane to draft tube outlet are performed at part-load and full-load conditions, respectively. The influence of each geometrical parameter on both the flow instability and resulting pressure pulsations, as well as on energy losses in the draft tube, are investigated by applying an Analysis of Means (ANOM) to the numerical results. The whole methodology enables the identification of a set of geometrical parameters minimizing the pressure fluctuations occurring in part-load conditions as well as the energy losses in both full-load and part-load conditions while maintaining the requested pressure recovery. Finally, the results of the CFD simulations with the final draft tube geometry are compared with the results estimated by the ANOM, which demonstrates that the proposed methodology also enables a rough preliminary estimation of the draft tube losses and pressure fluctuations amplitude. [ABSTRACT FROM AUTHOR]

Published

2021

2. Study of the Greitzer Model for Centrifugal Compressors: Variable L c Parameter and Two Types of Surge.

Author

Grapow, Filip and Liśkiewicz, Grzegorz

Subjects

*CENTRIFUGAL compressors, *TWO-dimensional models, *ALGORITHMS, *FLOW instability, *COMPRESSORS

Abstract

In this paper, the Greitzer surge model was systematically analysed with the model compressor duct length Lc as the tuning parameter. The surge phenomenon is known to induce a serious risk to centrifugal compressor operation. The two-dimensional Greitzer model is a well-established way of modelling this dangerous instability, but the determination and changes of the model parameters are still being discussed. In this paper an automated procedure determines the Lc value providing the best fit with the experimental data has been presented. The algorithm was tested on five valve positions and revealed that the best fit was obtained for different Lc values following a linear trend against the mass flow rate. The study has also shown that the Greitzer model has two solutions for a given pressure oscillation amplitude: one similar to the deep surge (low Lc) and one similar to the mild surge (low Lc). This suggests that this model can be used to simulate both types of the phenomenon known from the experimental analyses. The study proposes the dimensionless average pressure as the parameter allowing to distinguish which surge cycle was observed at a given instance. Past papers were analysed to observe the surge type that appeared in different experiments. It was found that most researchers obtained low Lc surge. The results show that both deep and mild surge could be simulated with the Greitzer model. It also revealed that the Lc should not be treated as a constant value for a given machine and that it changes with the mass flow rate. [ABSTRACT FROM AUTHOR]

Published

2020

3. Mathematical Modeling of Unsteady Gas Transmission System Operating Conditions under Insufficient Loading.

Author

Zapukhliak, Vasyl, Poberezhny, Lyubomyr, Grudz Jr., Volodymyr, Stasiuk, Roman, Maruschak, Pavlo, Brezinová, Janette, and Guzanová, Anna

Subjects

*NATURAL gas pipelines, *AMPLITUDE estimation, *PRESSURE, *FLUCTUATIONS (Physics), *MATHEMATICAL models, *NATURAL gas pipeline compressor stations

Abstract

Under insufficient loading of a main gas transmission system, high-amplitude fluctuations of pressure may occur in it. A mathematical model is proposed to estimate the amplitude of pressure fluctuations in a gas pipeline along its length. It has been revealed that the shutdown of compressor stations along the gas pipeline route has a significant impact on the parameters of the unsteady transient operating conditions. The possibility of minimizing oscillation processes by disconnecting compressor stations is substantiated for the "Soyuz" main gas pipeline. [ABSTRACT FROM AUTHOR]

Published

2019