CFD STUDIES ON MODELING OF SAVONIUS HYDRO TURBINE
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This document discusses computational fluid dynamics (CFD) simulations and experimental analysis conducted to study the performance of a Savonius hydro turbine under various conditions. The study aims to determine the turbine's maximum efficiency. CFD simulations were performed for different overlap ratios and canal widths to analyze how these factors impact the turbine's power coefficient and power output. Experimental testing on turbine models with different aspect ratios found that increasing the blade area improved performance. The simulations and experiments indicated that an optimal canal width of 5 diameters maximized the power coefficient, demonstrating how blockage affects turbine efficiency. The studies provide insight into designing Savonius hydro turbines to extract more power from low-velocity water flows.
![International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 09 Issue: 01 | Jan 2022 www.irjet.net p-ISSN: 2395-0072
© 2022, IRJET | Impact Factor value: 7.529 | ISO 9001:2008 Certified Journal | Page 1283
REFERENCES
[1] N.K. Sarma, A Biswas, R.D. Misra,“Experimental and
computational evaluation of Savonius hydrokinetic
turbine for low velocity condition with comparison to
Savonius wind turbine at the same input power” Energy
conversion and Management at science direct(2014)
[2] Zied Driss,Olfa Mlayeh Dorra Driss, Makram Maaloul,
Mohamed Salah Abis “Numerical simulation and
experimental valisation of the turbulent flow around a
small incurved Savonius wind rotor” Energy at science
direct (2014)
[3] Patel C.R., Patel V.K., Prabhu S.V., Eldho
T.I.,“Investigation of Overlap Ratio for Savonius Type
Vertical Axis Hydro Turbine” International Journal of Soft
Computing and Engineering (IJSCE) ISSN 2231-2307,
Volume-3, Issue-2, May (2013)
[4] N.H. Mahmoud, A.A. El-Haroun , E. Wahba , M.H. Nasef
“An experimental study on improvement of Savonius rotor
performance” Alexandria Engineering Journal(2010)
[5] U.K. Saha, M. Jaya Rajkumar, “On the performance
analysis of Savonius rotor with twisted blades” Renewable
Energy 31 (2006) 1776–1788
[6] Joao Vicente Akwaa, Horacio Antonio Vielmob, Adriane
Prisco Petry,“A review on the performance of Savonius
wind turbines” Renewable and Sustainable Energy
Reviews(2012)
[7] Sukanta Roya, Ujjwal K. Sahab ,“Computational study to
assess the influence of overlap ratio on static torque
characteristics of a vertical axis wind turbine” Chemical,
Civil and Mechanical Engineering Tracks of 3rd Nirma
University International Conference (NUiCONE 2012)
[8] Mabrouki, Zied Driss, Mohamed Salah Abis,
“Performance Analysis of aWater Savonius Rotor Effect of
the Internal Overlap Ibrahim”Sustainable Energy, 2014,
Vol. 2, No. 4, 121-125 Available online at
http//pubs.sciepub.com/rse/2/4/1 © Science and
Education Publishing DOI10.12691/rse-2-4-1
[9]. F. O. Rourke, F. Boyle, and A. Reynolds, “Renewable
energy resources and technologies applicable to Ireland,”
Renewable and Sustainable Energy Reviews, vol. 13, no. 8,
pp. 1975–1984, 2009. View at Publisher · View at Google
Scholar · View at Scopus 69](https://image.slidesharecdn.com/irjet-v9i1227-220912100600-69d8e631/85/CFD-STUDIES-ON-MODELING-OF-SAVONIUS-HYDRO-TURBINE-4-320.jpg)
CFD STUDIES ON MODELING OF SAVONIUS HYDRO TURBINE
- 1. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 09 Issue: 01 | Jan 2022 www.irjet.net p-ISSN: 2395-0072 © 2022, IRJET | Impact Factor value: 7.529 | ISO 9001:2008 Certified Journal | Page 1280 CFD STUDIES ON MODELING OF SAVONIUS HYDRO TURBINE Ram Kumar Yadav1, Purushottam Sahu2 1Research Scholar, BM College of Technology, Indore 2Professor, BM College of Technology, Indore ---------------------------------------------------------------------***---------------------------------------------------------------------- Abstract - The goal of this research is to demonstrate the key characteristics of a hydro turbine. We investigated the performance of a water turbine under various conditions in this study. The Savonius wind turbine is one of the most well-known turbines in the world of wind power production, but we have employed it as a hydraulic turbine, and there is little literature on this type of water turbine. In this study, the performance of a Savonius hydro turbine is analysed using CFD simulation and experimental data. We provided a model in Part 1 of our dissertation, and now we are investigating the experimental data. This turbine's basic structure consists of a rotor with bearing, generator, power conditioner, and load unit. The primary goal of this project is to examine the performance of a hydro turbine with various overlap ratios and aspect ratios. Key Words: Modeling, Performance, Simulation, Computational fluid dynamics, Fluid dynamics, Hydro turbine 1.INTRODUCTION The current epoch is dominated by energy. Wind, tides, solar power, geothermal heat, biomass, such as agricultural and animal manure, and non-traditional energy, such as human excreta, can all be used to generate energy. Each of these sources is either infinite or sustainable, and they do not pollute the environment. Furthermore, they do not necessitate much use. Today, the world's power consumption is up to 20,000 billion kilowatt-hours, with 70 percent coming from conventional energy and the remainder coming from other common sources such as hydropower, geothermal, biomass, solar, wind, and atomic energy. About 16 percent of this 30 percent is formed by the dynamic life of falling or streaming water, which then transforms into power. 1.1 The Project's Goal The goal of this study is to use experimental analysis to determine the turbine's maximum efficiency. This study is primarily focused on renewable energy systems, and the purpose of this paper is to investigate the performance of a Savonius turbine utilised as a hydro turbine using computational fluid dynamics (CFD) simulations and experimental data. 1.2 Finite Difference Method The finite difference technique is a prominent method for solving PDEs numerically. It was first proposed in the 18th century by Leonhard Euler for the solution of an initial value problem. The forward and backward Euler method (FDM) is well-known. CFD development, research, and applications have all benefited from IT. 2. NUMERICAL SIMULATION The effect of optimal obstruction is investigated in this paper using numerical simulation and fluency. The term "blockage" refers to the ability to produce or hinder the flow of water while maintaining the free stream velocity constant in a canal. The influence on performance may be seen through this work. This project focuses on improving flow blockage and investigating performance by calculating Power and Cp. The work was done with three distinct canal parameters: the canal width was varied by modelling, and all other dimensions, such as free stream velocity and turbine model, kept constant. The three distinct canal widths span from 0.636D to 15D, and the savonius hydro turbine was used to achieve the highest feasible Cp and Power. 2.1 Modelling The geometry modelling is done in solid work, and the boundary condition parameters stay the same. In each of these canals, the identical turbine is installed. Fig.1 Savonius Hydro turbine with 5D upstream and downstream Canal width
- 2. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 09 Issue: 01 | Jan 2022 www.irjet.net p-ISSN: 2395-0072 © 2022, IRJET | Impact Factor value: 7.529 | ISO 9001:2008 Certified Journal | Page 1281 Fig 2 Savonius Hydro turbine with 10D upstream and downstream Canal width Fig 3 Savonius Hydro turbine with 15D upstream and downstream Canal width 2.3 Mesh Ansys 15 is used to complete the geometry by importing it through Solid Works. To maximise the result, the grid size and procedure are kept the same, just the canal width is changed. Fig 4 Meshing of Savonius Hydro turbine with 5D upstream and downstream Canal width Figure 5 Savonius Hydro turbine meshing with 15D upstream and downstream canal widths 3. Results and Discussions Velocity contour of savonius hydro-turbine at Aspect Ratio e=25 and canal width 0.636D, 2.5D, 5D, and 15D Fig 3.1 Velocity Contour at 2.5D Canal Fig 3.2 Velocity Contour at 5D Canal Width
- 3. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 09 Issue: 01 | Jan 2022 www.irjet.net p-ISSN: 2395-0072 © 2022, IRJET | Impact Factor value: 7.529 | ISO 9001:2008 Certified Journal | Page 1282 Fig 3.3 Velocity Contour at 15D Canal Width Fig 3.4 Pressure contour at 15D canal width Fig 3.5 Cp Vs Blockage comparison Closure Figure 3.5 shows how the Cp varies with canal width. It is obvious that if the canal width is too small, the total force of water coming at a free stream velocity is dropped on the rotor. As the width of the inlet area is increased, the fluctuation continues, and at a middle position, the optimum Cp can be obtained. In this case, the feasible solution can be obtained at 5D. The width is minimized at the last location when it is unable to rotor from above. It is apparent that as the canal width is reduced, the Cp steadily decreases. A performance investigation is carried out experimentally, with several aspect ratios being evaluated and a viable answer being found. Now, three sets of blades with varied aspect ratios were tested with a constant overlap ratio of 15, and it was discovered that the blade with the most area worked better than the others. The blade with a height of 250 mm had a Cp of 0.471508 in this study, while the rest of the blade had a lower Cp. As a result of the experiment, it is evident that the Cp can be maximized by altering the blade's aspect ratio. The following work was done in CFD to better understand the effect of blockage. A numerical simulation for the fixed geometry with aspect ratio and overlap ratio is carried out to obtain the right behaviour of the Savonius hydro turbine. In the blockage analysis, a wide range of domains were used, with domain widths ranging from 0.637D to 15D, and it was discovered that the best result may be obtained at a specific place in the domain, which is at 5D. 4. CONCLUSIONS In this study, the performance of a Savonius hydro turbine CFD simulation at low velocities in the range of 0.6 m/s inside an open canal was investigated. For the same values, the experimental and CFD results are compared to each other. The following findings are drawn from this research: The findings illustrate the torque and power output of the Savonius hydro turbine, indicating that at a certain point with a low free stream velocity, the maximum Cp may be achieved with less fluctuation in the turbine. This work's viable position is at a TSR of 0.7, where the largest power co-efficient is achievable, which is substantially greater than any other position in this work. Despite the fact that the Savonius turbine is primarily a wind turbine, the goal of using it as a hydro turbine is to extract maximum power output because hydro power is superior to wind power. A free stream velocity of water of 0.6 m/s would be suitable for the current work because torque and power fluctuate less. Because the location of the turbine in the water has an impact on performance, it was decided to conduct an experiment with the blade position. In this work, a feasible position is generated, and it is concluded that the performance of the turbine can be improved by keeping it at an angle.
- 4. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 09 Issue: 01 | Jan 2022 www.irjet.net p-ISSN: 2395-0072 © 2022, IRJET | Impact Factor value: 7.529 | ISO 9001:2008 Certified Journal | Page 1283 REFERENCES [1] N.K. Sarma, A Biswas, R.D. Misra,“Experimental and computational evaluation of Savonius hydrokinetic turbine for low velocity condition with comparison to Savonius wind turbine at the same input power” Energy conversion and Management at science direct(2014) [2] Zied Driss,Olfa Mlayeh Dorra Driss, Makram Maaloul, Mohamed Salah Abis “Numerical simulation and experimental valisation of the turbulent flow around a small incurved Savonius wind rotor” Energy at science direct (2014) [3] Patel C.R., Patel V.K., Prabhu S.V., Eldho T.I.,“Investigation of Overlap Ratio for Savonius Type Vertical Axis Hydro Turbine” International Journal of Soft Computing and Engineering (IJSCE) ISSN 2231-2307, Volume-3, Issue-2, May (2013) [4] N.H. Mahmoud, A.A. El-Haroun , E. Wahba , M.H. Nasef “An experimental study on improvement of Savonius rotor performance” Alexandria Engineering Journal(2010) [5] U.K. Saha, M. Jaya Rajkumar, “On the performance analysis of Savonius rotor with twisted blades” Renewable Energy 31 (2006) 1776–1788 [6] Joao Vicente Akwaa, Horacio Antonio Vielmob, Adriane Prisco Petry,“A review on the performance of Savonius wind turbines” Renewable and Sustainable Energy Reviews(2012) [7] Sukanta Roya, Ujjwal K. Sahab ,“Computational study to assess the influence of overlap ratio on static torque characteristics of a vertical axis wind turbine” Chemical, Civil and Mechanical Engineering Tracks of 3rd Nirma University International Conference (NUiCONE 2012) [8] Mabrouki, Zied Driss, Mohamed Salah Abis, “Performance Analysis of aWater Savonius Rotor Effect of the Internal Overlap Ibrahim”Sustainable Energy, 2014, Vol. 2, No. 4, 121-125 Available online at http//pubs.sciepub.com/rse/2/4/1 © Science and Education Publishing DOI10.12691/rse-2-4-1 [9]. F. O. Rourke, F. Boyle, and A. Reynolds, “Renewable energy resources and technologies applicable to Ireland,” Renewable and Sustainable Energy Reviews, vol. 13, no. 8, pp. 1975–1984, 2009. View at Publisher · View at Google Scholar · View at Scopus 69