Hydrodynamic analysis of horizontal-axis tidal current turbine with rolling and surging coupled motions

Wang, Shuqi; Sun, Ke; Xu, Gang; Liu, Yongtao; Bai, Xu

doi:10.1016/j.renene.2016.10.036

Cited by 17 publications

(2 citation statements)

References 8 publications

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“…Although several approaches exist for the purpose of multiobjective optimization design of the pumps and impellers, programs using computational uid dynamics (CFD) continues to be the most popular method [10][11][12]. ese programs, when run by high-performance computers, can forecast not only the functioning of the pump but also the ow eld upstream and downstream of the pump [13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Multiobjective Optimization Design and Experimental Investigation on the Axial Flow Pump with Orthogonal Test Approach

Zhang

Zheng

et al. 2019

Complexity

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A multiobjective optimization technique based on the computational uid dynamics (CFD) simulations and the orthogonal test is proposed to reduce the pressure pulsation in this paper. ree levels of four well-known performance factors L 9 (3 4 ) were considered in the orthogonal test scheme: the number of blades, the blade setting angle, the hub ratio, and the distance between the blade and the guide vane. e evaluation indexes corresponded to the head, e ciency, shaft power, and pressure pulsation, respectively. An optimal con guration A 2 B 1 C 2 D 3 was obtained by comprehensive frequency analysis method, after intuitive and range analysis. In comparison with the nonoptimized model, the new design's head and e ciency increased by 17.8% and 4.26%, whilst the shaft power and the pressure pulsation coe cient reduced by 1.22% and 11%, respectively. Experiments conducted on the optimized pump were consistent with the CFD model. Six di erent rotational speed conditions in the optimal operating points were numerically calculated in order to explore the internal hydraulic characteristics of the optimized axial ow pump. It is veri ed that the comprehensive frequency analysis method based on the orthogonal test approach is e ective for the multiobjective optimization of the axial ow pump.

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Section: Introductionmentioning

confidence: 99%

Multiobjective Optimization Design and Experimental Investigation on the Axial Flow Pump with Orthogonal Test Approach

Zhang

Zheng

et al. 2019

Complexity

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“…The tidal current energy turbine model used in this paper originates from previous work, and was developed by the Institute of Marine Renewable Energy of Harbin Engineering University [20,21]. The turbine blade was designed using the leaf element body momentum theory (BEM), and the specific design parameters are shown in Table 1.…”

Section: Tidal Current Energy Turbine Modelmentioning

confidence: 99%

Hydrodynamic Performance and Flow Field Characteristics of Tidal Current Energy Turbine with and without Winglets

Wang,

Guo,

Jing

et al. 2023

JMSE

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In order to gain a more comprehensive understanding of the influence of winglets on the hydrodynamic performance and flow field characteristics of tidal current energy turbines, two different shapes of winglets are designed, and numerical simulation results for turbines with and without winglets are compared and analyzed. The results show that both shapes of winglets can improve the energy conversion efficiency, and the winglets with a cant angle (60°) are more effective than the flat (0°) winglets; the winglets transfer the tip vortices to the winglet tips and weaken the tip vortices, increase the pressure coefficients of the cross-section in the tip region, and inhibit the three-dimensional flow phenomenon in the tip region; the winglets will make the wake axial velocity deficit larger in the near-wake region, and with the axial distance increases, the axial velocity of the wake flow with winglets recovers faster than that without winglets; winglets can make the vortex pairing and breaking of the turbine tip vortex faster, which can also be observed by the change in the turbulent kinetic energy (TKE).

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Robust optimization of a marine current turbine using a novel robustness criterion

Karimi,

Mohammadi,

Raisee

et al. 2023

Energy Conversion and Management

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Hydrodynamic analysis of horizontal-axis tidal current turbine with rolling and surging coupled motions

Cited by 17 publications

References 8 publications

Multiobjective Optimization Design and Experimental Investigation on the Axial Flow Pump with Orthogonal Test Approach

Multiobjective Optimization Design and Experimental Investigation on the Axial Flow Pump with Orthogonal Test Approach

Hydrodynamic Performance and Flow Field Characteristics of Tidal Current Energy Turbine with and without Winglets

Robust optimization of a marine current turbine using a novel robustness criterion

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