Prediction and multi‐objective optimization of tidal current turbines considering cavitation based on GA‐ANN methods

Sun, ZhengMing; Li, Zengliang; Fan, Menghao; Wang, Meng; Le, Zhang

doi:10.1002/ese3.399

Cited by 7 publications

(3 citation statements)

References 42 publications

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“…The ANN algorithm is a mathematical algorithm model for the processing of distributed parallel information, which imitates the behavior of animal neural networks. In the optimization system, the performance parameters of the temporary turbine are measured by ANN [10]. GA is a method to resolve optimization problems inspired by the natural selection process and to produce potential solutions from all possible solutions.…”

Section: Multi-objective Optimizationmentioning

confidence: 99%

A Study on Diffuser Augmentation of a Tidal Turbine

Ambarita

Harinaldi

Nasruddin

et al. 2021

ARFMTS

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As tidal energy is progressively earning attention worldwide, there is a lot of existing research about the tidal current potency and the tidal turbine design. Especially on turbine design, existing studies deduced that a diffuser augmentation is a superior choice to increase the turbine performance. However, the research in finding the best diffuser angle whose efficiency is maximum, yet minim cavity risk is still limited. Therefore, this study proposes an innovative, optimized design method on diffuser augmentation of a tidal turbine by comparing four diffuser angles in three inflow velocity circumstances. In particular, three airfoil blades design with a rotor diameter of 0.3 m was developed. The combination of computational fluid dynamic and multi-objective optimization using a general algorithm coupled with the artificial neural network was applied by considering the turbine’s power coefficient and cavitation inception as a trade-off objective. The numerical results display that the different inflow velocity affects the turbine performance insignificantly. The optimization analysis and comparison among four diffuser angles in three variations of inflow velocity show that the tidal turbine's optimal design with diffuser augmentation could be applied to all tidal current speed.

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Section: Multi-objective Optimizationmentioning

confidence: 99%

A Study on Diffuser Augmentation of a Tidal Turbine

Ambarita

Harinaldi

Nasruddin

et al. 2021

ARFMTS

View full text Add to dashboard Cite

show abstract

“…At present, computer technology has been applied in many fields to obtain optimal solutions, such as microgrid, solar energy, and renewable energy. [24][25][26][27][28][29][30][31][32] Many scholars have also proposed T A B L E 1 Improvement of process equipment or technology of the oil pipeline system Frequency control technology The output power of the motor is effectively matched with the pipe flow, which reduces energy consumption…”

Section: Introductionmentioning

confidence: 99%

“…With the continuous development of mathematics and computer science, the continuous updating of artificial intelligence technology and intelligent optimization algorithms makes the process of solving many engineering problems simple, and the solution is better. At present, computer technology has been applied in many fields to obtain optimal solutions, such as microgrid, solar energy, and renewable energy 24‐32 . Many scholars have also proposed different solutions in the hot oil pipeline system, as shown in Table 2.…”

Section: Introductionmentioning

confidence: 99%