Your search keyword '"Zhu, Huaibao"' showing total 3 results

1. Rationality research of the adjustment law for the blade pitch angle of H-type vertical-axis wind turbines

Author

Jing Liu, Li Xiang, Gu Jiawei, Lijun Zhang, Zhu Huaibao, Jiao Liuyang, Kuoliang Hu, Junjie Miao, and Zhiwei Wang

Subjects

Physics, Wind power, 060102 archaeology, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Blade pitch, Vertical axis, Magnitude (mathematics), 06 humanities and the arts, 02 engineering and technology, Turbine, Law, 0202 electrical engineering, electronic engineering, information engineering, Fluent, 0601 history and archaeology, Pitch angle, business

Abstract

Pitch angle greatly affects the performance of VAWT. Aiming at the maximum value of CT, this study first obtains the theoretical optimal angles of attack, i.e., 17.7° and −18.4° in upwind and downwind zones. A 2.5D model is simulated using Fluent to determine the magnitude and direction of induced velocity, and an initial pitch angle adjustment law is obtained combining the proposed local TSR. Compared with a prototype wind turbine, CP is increased by 2.69% after applying the initial adjustment law. The fitting curve angle δ at the abrupt part of pitch angle is analyzed. The smaller the angle δ is, the more evident the performance improvement of VAWT becomes. CP is increased by 11.68% when the angle is δ = 0°. On this basis, the adjustment law corresponding to δ = 0° of 100°

Published

2021

2. Influences of trailing edge split flap on the aerodynamic performance of vertical axis wind turbine

Author

Mi Yuxia, Gu Jiawei, Lijun Zhang, Junjie Miao, Ma Dongchen, Kuoliang Hu, Li Xiang, Zhiwei Wang, and Zhu Huaibao

Subjects

Vertical axis wind turbine, General Energy, Acoustics, Fluent, Trailing edge, Aerodynamics, Safety, Risk, Reliability and Quality, Geology

Published

2020

3. Influences of trailing edge split flap on the aerodynamic performance of vertical axis wind turbine.

Author

Zhang, Lijun, Gu, Jiawei, Hu, Kuoliang, Zhu, Huaibao, Miao, Junjie, Li, Xiang, Ma, Dongchen, Mi, Yuxia, and Wang, Zhiwei

Subjects

VERTICAL axis wind turbines, FLUTTER (Aerodynamics), ENERGY consumption, REYNOLDS number

Abstract

To improve the performance of a 3.5 kW small H‐type vertical axis wind turbine (VAWT) with the airfoil of NACA0015, a design method for installing split flaps at the trailing edge of a blade is proposed. By solving the two‐dimensional URANS equations, the simulation of VAWTs is carried out. The influences of the length (10% c‐30% c), arrangement positions (90% c‐70% c), and deflection angles (10°‐30°) of the split flaps on the performance of VAWT are determined by orthogonal design when Reynolds number is 2 × 105 and 1 < TSR < 3. In accordance with the influence degrees of these parameters and adopting the maximum wind energy utilization ratio CPmax and the maximum efficient operating range Δλmax as research objectives, the optimum flap length is determined as 22% c, the optimum deflection angle is 10°, and the optimum arrangement position is 92% c. Further studies show that the CPmax is increased by 5.8% and its Δλmax is increased by 25.9% after installing split flaps. Meanwhile, split flaps can change the Kutta‐Joukowsky trailing edge boundary condition, which increases the flow circulation around the airfoil. Also, split flaps can increase the positive pressure difference in the upwind area and reduce the negative pressure difference in the downwind area, which significantly improves the aerodynamic performance of VAWTs. [ABSTRACT FROM AUTHOR]

Published

2021