Add to ORKGThe article considers the possibility of using hydrophobic coatings on the internal surfaces of main transport equipment to reduce the wettability zone and hydraulic roughness. This coating can be used on pipelines, pump impellers to reduce energy consumption. It was concluded that it is necessary to study further the theoretical and practical aspects of hydrophobization and the introduction of this method in large-scale production
Samara, F., & Johnson, D. A. (2021). Quantifying Trailing Edge Flap Control Capability on Wind Turbi...
Inside wind farms, the wakes of upwind turbines result in a significant reduction in power productio...
This paper addresses the yawing systems of Horizontal Axis Wind Turbines (HAWT’s). HAWT’s represents...
The article considers the possibility of using hydrophobic coatings on the internal surfaces of main...
Looking at the upscaling of the rotor diameter not only the loss in power production but the aerodyn...
As wind turbines increase in size, combined with increased lifetime demands, new methods for load re...
This work proposes a cascaded braking mechanism. It consists of dynamic braking and yaw control sche...
AbstractThis paper presents the development process of an active yaw mechanism for small wind turbin...
Introducing a hydraulic soft yaw concept for wind turbines leads to significant load reductions in t...
Abstract: Modern wind turbines are mainly horizontal axis and operate in bottom atmospheric boundary...
Yaw angle control is known nowadays as a promising and effective technique to mitigate wake effects ...
Due to the increase of rotor size in horizontal axis wind turbine (HAWT) during the past 25 years in...
Yaw angle control is known nowadays as a promising and effective technique to mitigate wake effects ...
Climate change gives incentive for the transition to sustainable energy sources such as wind energy....
A Simulink model of a 20MW multi rotor system (MRS) is built containing all the necessary detail to ...
Samara, F., & Johnson, D. A. (2021). Quantifying Trailing Edge Flap Control Capability on Wind Turbi...
Inside wind farms, the wakes of upwind turbines result in a significant reduction in power productio...
This paper addresses the yawing systems of Horizontal Axis Wind Turbines (HAWT’s). HAWT’s represents...
The article considers the possibility of using hydrophobic coatings on the internal surfaces of main...
Looking at the upscaling of the rotor diameter not only the loss in power production but the aerodyn...
As wind turbines increase in size, combined with increased lifetime demands, new methods for load re...
This work proposes a cascaded braking mechanism. It consists of dynamic braking and yaw control sche...
AbstractThis paper presents the development process of an active yaw mechanism for small wind turbin...
Introducing a hydraulic soft yaw concept for wind turbines leads to significant load reductions in t...
Abstract: Modern wind turbines are mainly horizontal axis and operate in bottom atmospheric boundary...
Yaw angle control is known nowadays as a promising and effective technique to mitigate wake effects ...
Due to the increase of rotor size in horizontal axis wind turbine (HAWT) during the past 25 years in...
Yaw angle control is known nowadays as a promising and effective technique to mitigate wake effects ...
Climate change gives incentive for the transition to sustainable energy sources such as wind energy....
A Simulink model of a 20MW multi rotor system (MRS) is built containing all the necessary detail to ...
Samara, F., & Johnson, D. A. (2021). Quantifying Trailing Edge Flap Control Capability on Wind Turbi...
Inside wind farms, the wakes of upwind turbines result in a significant reduction in power productio...
This paper addresses the yawing systems of Horizontal Axis Wind Turbines (HAWT’s). HAWT’s represents...