Development of a Hydrokinetic Turbine Backwater Prediction Model for Inland Flow through Validated CFD Models

Niebuhr, Chantel Monica; Hill, Craig; Dijk, Marco Van; Smith, Lelanie

doi:10.3390/pr10071310

Cited by 4 publications

(3 citation statements)

References 56 publications

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“…Furthermore, studies about change in guide vane air foil on the flow characteristics of draft tube for improvement of energy recovery, vibrations intensity, stable operation of turbine, design methods of multiphase pumps for hydrodynamic and structural points of view, etc. have been performed widely in the past (Benavides-Morán, Rodríguez-Jaime and Laín, 2022; Niebuhr et al, 2022;Peng et al, 2022).They conclude that the power coefficient is affected by presence of free surface. Similarly, authors in (Lopez Mejia et al, 2021) propose practise guidelines for CFD simulations in turbines studying the performance standard of vertical axis and horizontal axis turbines and those in (Xiong, Deng and Chen, 2021) study about flapping motion in tail edge which is found to present a better stability for turbine.…”

Section: 2mentioning

confidence: 96%

Models for a hydropower plant: a review

Nepal,

Bista,

Øyvang

et al. 2023

Linköping Electronic Conference Proceedings

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Hydro Power plant (HPP), being one of the most convenient options for power generation, has been modelled considering very wide aspects of their application. A model is simply a mathematical representation of a system and it may serve different purposes like dynamic simulation of hydro power, energy systems modelling involving policy making, condition monitoring, etc. The purpose of modelling HPPs may lead to various kind of models for a single Hydropower. This paper aims at reviewing hydropower models developed using different methods along with the purpose for modelling them. This will provide brief insights about state of the art on hydropower modelling and its emerging techniques. Furthermore, this paper presents in more detail about tracking the advancements in dynamic models for classical and variable speed hydropower plants highlighting the need for the development of more accurate models. The work mainly involves narrative review of published works on hydro power modelling techniques. Also, it includes systematic reviews about dynamic representation of hydropower plants. As this paper aims at presentation of hydro power models in a classified manner based on purpose of modelling, the areas of improvement in each type of model have been discussed. Models for control can be made to be more accurate by including more realistic featured like penstock dynamics, uncertainties, etc which further help in design of advanced control systems. There are several potential benefits of HPP modelling, such as optimizing plant performance, improving control, reducing maintenance costs, and enhancing overall system efficiency and reliability.

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Section: 2mentioning

confidence: 96%

Models for a hydropower plant: a review

Nepal,

Bista,

Øyvang

et al. 2023

Linköping Electronic Conference Proceedings

View full text Add to dashboard Cite

show abstract

“…Modelling and simulation of horizontal-and vertical-axis turbines for hydrokinetic applications [10][11][12][13][14].…”

mentioning

confidence: 99%

“…All of these contributions use CFD in different problems, ranging from vertical-axis turbines to horizontal-axis turbines, but all have the common characteristic of the inclusion of more details (either geometrical or physical) in the simulation. For example, Niebuhr et al proposed a simplified model for the calculation of a small horizontal-axis turbine that includes backwater effects [10]. The model uses the data generated from CFD simulations that include not only the presence of the walls (channel flow), but also the free surface using a multiphase model.…”

mentioning

confidence: 99%