Methodology for the Optimization of a Novel Hydro Turbine with a Case Study

Aggidis, George and Židonis, Audrius and Burtenshaw, Luke and Dubois, Marc and Orritt, Stephen and Pickston, Dominic and Prigov, George and Wilmot, Luke (2023) Methodology for the Optimization of a Novel Hydro Turbine with a Case Study. Energies, 16 (22): 7591. ISSN 1996-1073

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Abstract

As the world strives towards its goal of net zero carbon emissions, it is vital that renewable energy sources be optimized to their full potential. A key source of renewable energy is hydropower, more specifically, the Pelton turbine—a highly efficient, widely used, and well-researched piece of turbomachinery. This review proposes a methodology that will aid future research on Pelton turbines and compares relevant literature to assess effective ways to improve upon the Pelton design. The methodology evaluates how both experimental and computational analysis can be utilized in parallel to accelerate the progress of research, giving an example of the adopted workflow presented in a case study. The literature study in this paper focuses on how a variety of bucket parameters can be optimized to improve the efficiency of a Pelton turbine and analyses the accuracy of CFD compared to experimental data from previous research involving Pelton and Turgo turbines. The findings revealed that a water exit angle of 169°–170° proved to be optimal, while modifications to the depth and internal geometry of the bucket seemed to have the greatest impact on the efficiency of Pelton turbines. A short discussion on the potential for utilizing the strengths of both Pelton and Turgo turbines is included to highlight the need for further research in this field. A combination of both simulation and experimental results running in parallel with each other during optimization is found to be beneficial due to advancements in rapid prototyping. By comparing experimental data with simulated data throughout the optimization process, mistakes can be realized early on in the process, reducing time in later stages. Having experimental data throughout the turbine’s development aids the computational process by highlighting issues that may have been missed when only using CFD.

Item Type:
Journal Article
Journal or Publication Title:
Energies
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1700/1700
Subjects:
?? energy (miscellaneous)energy engineering and power technologyrenewable energy, sustainability and the environmentelectrical and electronic engineeringcontrol and optimizationengineering (miscellaneous)building and constructiongeneral computer sciencecompu ??
ID Code:
210917
Deposited By:
Deposited On:
04 Dec 2023 16:30
Refereed?:
Yes
Published?:
Published
Last Modified:
16 Jul 2024 12:11