Numerical Study and Theoretical Comparison of Outlet Hole Geometry for a Gravitational Vortex Turbine

Sánchez, Alejandro Ruiz; Rio, Jorge Sierra-Del; Pujol, Toni

doi:10.17509/ijost.v6i3.38951

Cited by 6 publications

(6 citation statements)

References 12 publications

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“…According to the results, the H-Darrieus rotor works with increasing lift force [22,35]. However, the rotor inside the GVT interacts with drag and not lift force [36], which does not allow a better performance of this rotor. It must be considered that the area of the blade face perpendicular to the fluid is less than that of the conventional rotor (straight blades); therefore, this also directly influences the performance of the GVT given that the greater the contact area of the fluid with the rotor, the drag force on the rotor increases.…”

Section: Fig 7 Generated Torque Vs Angular Velocity In Gvtmentioning

confidence: 94%

Numerical Study of H-Darrieus Turbine as a Rotor for Gravitational Vortex Turbine

Rio

Sánchez

Villa

et al. 2022

CFDL

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The main objetive of this study is to compare numerically the torque generated at 50, 75, 100, and 125 rpm by H-Darrieus turbine as a rotor for Gravitational Vortex Turbine. The rotational flow into the gravitational vortex turbine tank helped to decrease the negative torque in H-Darrieus rotor. The study was developed in ANSYS® CFX, where the model was configured at constant operating conditions. The highest torque was 0.117 Nm at 50 rpm, and the torque decreased with increasing rpm. The H-Darrieus works with increasing lift force, however, the rotor inside the Gravitational Vortex Turbine interacts with drag force.

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Section: Fig 7 Generated Torque Vs Angular Velocity In Gvtmentioning

confidence: 94%

Numerical Study of H-Darrieus Turbine as a Rotor for Gravitational Vortex Turbine

Rio

Sánchez

Villa

et al. 2022

CFDL

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“…For this reason, the Swiss turbine stands out for being the largest power generator at a lower flow rate and height. It is also worth noting that between Italy, Austria, and Germany they have seven (7) installed turbines, demonstrating the superiority in GVT installed. To exemplify Table 2, the calculation of the electrical power of (1) [1] was taken.…”

Section: Gvt Installedmentioning

confidence: 95%

Numerical comparison of Savonius turbine as a rotor for gravitational vortex turbine with standard rotor

Sánchez¹,

Rio²,

Quintana³

et al. 2023

J Appl Eng Science

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The generated kinetic energy of a water vortex can be transformed into electrical energy by a Gravitational Water Vortex Power Plant. Which is a new and green alternative for a conventional power plant that can induce/create a vortex without great civil construction. Previous studies focus their objective on tank design and vortex formation inside it (to study the fluid outlet velocity). However, the rotor design is a parameter that affects directly in turbine performance. The main purpose of this study is to compare numerically with the Ansys software the Savonius turbine as a Gravitational Vortex turbine rotor with the standard rotor (straight blades). The study showed that the straight-bladed rotor performed better with a generated torque of approximately 1.1 Nm, compared to 0.6 Nm generated by the Savonius. In conclusion, it was shown that the design of the rotor for the gravitational vortex turbine considerably affects its performance, where it can be increased or decreased by up to 30% difference.

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“…The findings showed that the concave basin system outperformed the convex basin system, producing power outputs of 0.37 W and 0.23 W, respectively. Additionally, Sánchez et al [58] compared a GWVHT system with a conical basin to one with a cylindrical basin in terms of discharge hole size. The results indicated that the conical basin system performed better than the cylindrical basin system.…”

Section: Non-parametric Studies On Basins and Channelsmentioning

confidence: 99%

A Review of Gravitational Water Vortex Hydro Turbine Systems for Hydropower Generation

2023

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Hydropower is one of the most sustainable and desirable renewable energy sources. Gravitational water vortex hydro turbine (GWVHT) systems are one of the most suitable and sustainable renewable power generation devices for remote and rural areas, particularly in developing countries, owing to their small scales and low costs. There are various GWVHT systems with different configurations and various operating conditions. The main components of a GWVHT system include the inlet and outlet channels, a basin, and a turbine on which there are a number of blades attached. This paper presents a comprehensive review regarding the progress and development of various GWVHT systems, covering broad aspects of GWVHT systems, particularly various types of basins, inlet and outlet channels, turbines with blades which have different shapes, orientations, sizes, numbers, etc. The nature of the previous studies is summarised. The fundamentals of the vortex dynamics involved and the quantitative analysis of the performance of GWVHT systems are also described. The turbulence models and multiphase models used in some leading numerical simulation studies have been reviewed. As a case study, the implementation of a GWVHT system in PNG is presented. Based on the review of previous studies regarding GWVHT systems, the major issues and challenges are summarised, and some key topics are recommended for future research work on the performance of GWVHT systems.

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Numerical Study and Theoretical Comparison of Outlet Hole Geometry for a Gravitational Vortex Turbine

Cited by 6 publications

References 12 publications

Numerical Study of H-Darrieus Turbine as a Rotor for Gravitational Vortex Turbine

Numerical Study of H-Darrieus Turbine as a Rotor for Gravitational Vortex Turbine

Numerical comparison of Savonius turbine as a rotor for gravitational vortex turbine with standard rotor

A Review of Gravitational Water Vortex Hydro Turbine Systems for Hydropower Generation

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