放置在楼层间的垂直轴风力机也为大厦提供电能。
The tower would also be powered by vertical axis wind turbines placed in between the floors of the central tower.
垂直轴风力机与水平轴风力机相比有其优势所在。
Compare with horizontal axis wind turbine, Vertical axis wind turbine has its advantage.
水平轴风力机和垂直轴风力机是风力机的两种基本形式。
Horizontal axis wind turbine and vertical axis wind turbine (VAWT) are two basic forms of wind turbine.
利用单斜丝热线旋转进行水平轴风力机模型的尾迹流场测量。
The panel method was used to predict the wake flow field of propeller.
本文给出了预示水平轴风力机叶片挥舞—扭转耦合振动稳定边界的一种简单方法。
In this paper, a simplified method is which can be used to predict the stability boundaries of the horizontal-axis wind turbine blade undergoing the flap-pitch coupling vibrations.
采用NRELS809翼型数据建立了水平轴风力机的整体模型及整机的流场模型。
NRELS809 airfoil is chosen, the whole model of horizontal axis wind turbine is built.
随着大型水平轴风力机的广泛使用,叶片的外形设计和气动性能研究受到广泛的关注。
With the wide use of Horizontal-axis wind turbine, the design of blade shape and the research of aerodynamic characteristics have been attracting wide-spread attention.
如何处理水平轴风力机中的轴向诱导因子和周向诱导因子是其气动设计和性能计算的关键问题。
How to treat the axial and circumferential factors is the key in the aerodynamic design and performance calculations for a horizontal axial wind turbine.
作为一个专用程序,PROPID在水平轴风力机叶片的逆向设计与分析中有许多独特的优点。
PROPID is a computer program for design and analysis of horizontal axis wind turbine blades.
作为一个专用程序,PROPID在水平轴风力机叶片的逆向设计与分析中有许多独特的优点。
PROPID is a computer program for design and analysis of horizontal axis wind turbine blades. The unique feature of this program lies in its inverse design and analysis capability.
在水平轴风力机模型不同尖速比条件下,利用旋转单斜丝热线在风轮下游进行尾迹流场速度测量。
An experimental investigation into the properties of the wake behind a horizontal-axis wind turbine (HAWT) rotor is carried out at model scale, using a single slanted hot-wire probe.
该文对影响水平轴风力机气动弹性稳定性的物理机理进行了分析,对国内外的研究方法进行了阐述。
In this paper, the experimental study of static and dynamic testing technologies for a horizontal axis wind turbine (HAWT) blade has been conducted.
为保证风力机具有最大的风能利用系数,本文主要对水平轴风力机风轮的设计和优化方法进行了研究。
The main objective of this paper is to investigate the horizontal-axis wind turbine (HAWT) rotors, which are optimized to produce the largest possible power output.
采用了弹簧—质量—阻尼系统结构并按照风力机运行机理,建立了风力机传动系统的刚性轴模型和柔性轴模型,并确立了相应的仿真分析方法。
The rigid shaft model and flexible shaft model of the drive train based on the spring-mass-damper system are used to analyze the dynamics of the drive train.
然后对升阻型垂直轴活叶风力机进行运动学分析和动力学分析,建立了数学模型。
Then kinematics and dynamics of lift-drag-type vertical axis wind turbine of living leaves is analyzed and mathematical model is established.
然后对升阻型垂直轴活叶风力机进行运动学分析和动力学分析,建立了数学模型。
Then kinematics and dynamics of lift-drag-type vertical axis wind turbine of living leaves is analyzed and mathematical model is established.
应用推荐