The focus of the work is on the evaluation, development and integration of a robust actuator system for three-dimensional flow control of a blown Coanda flap to improve the high lift system of commercial aircraft. As part of the research work presented, the system is integrated into a wind tunnel model in order to influence the flow across the entire width of the model. The system developed is based on individual bending transducers that can vary the height of the blowing slot dynamically. The system is divided into 33 segments and is therefore able to implement static and dynamic actuation along the wing-span (3D-actuation). All segments can be controlled independently and thus offer great optimization potential for an effective flow contr...
From the signing of the Paris Agreement to the COVID-19 outbreak, the past decade has truly challeng...
This paper provides an overview of a research and development effort sponsored by the NASA Advanced ...
Zugleich gedruckt erschienen im Universitätsverlag der TU Berlin unter der ISBN 978-3-7983-2337-7.Ak...
The focus of the work is on the evaluation, development and integration of a robust actuator system ...
The focus of the work is on the evaluation, development and integration of a robust actuator system ...
This paper presents the design process of an actuation device for novel high-lift devices, based on ...
Active high-lift aircraft need exceptional aerodynamic control performance to operate at low airspee...
This paper presents the development process of a dynamically actuated lip for active blowing at high...
The main objective is to develop effective control strategies for separation control of an airfoil w...
This contribution discusses the implementation of active flow-separation control for a three-dimensi...
This study focuses on Active Flow Control methods used in conjunction with airplane high-lift system...
A shock control bump (SCB) on the wing of a transonic airfoil can reduce the drag coefficient. Howev...
This report summarizes the activities in the use of linear piezoceramic linear actuators coupled wit...
This paper presents some of the progress in research on efficient high-lift systems for future civil...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76700/1/AIAA-1999-1503-882.pd
From the signing of the Paris Agreement to the COVID-19 outbreak, the past decade has truly challeng...
This paper provides an overview of a research and development effort sponsored by the NASA Advanced ...
Zugleich gedruckt erschienen im Universitätsverlag der TU Berlin unter der ISBN 978-3-7983-2337-7.Ak...
The focus of the work is on the evaluation, development and integration of a robust actuator system ...
The focus of the work is on the evaluation, development and integration of a robust actuator system ...
This paper presents the design process of an actuation device for novel high-lift devices, based on ...
Active high-lift aircraft need exceptional aerodynamic control performance to operate at low airspee...
This paper presents the development process of a dynamically actuated lip for active blowing at high...
The main objective is to develop effective control strategies for separation control of an airfoil w...
This contribution discusses the implementation of active flow-separation control for a three-dimensi...
This study focuses on Active Flow Control methods used in conjunction with airplane high-lift system...
A shock control bump (SCB) on the wing of a transonic airfoil can reduce the drag coefficient. Howev...
This report summarizes the activities in the use of linear piezoceramic linear actuators coupled wit...
This paper presents some of the progress in research on efficient high-lift systems for future civil...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76700/1/AIAA-1999-1503-882.pd
From the signing of the Paris Agreement to the COVID-19 outbreak, the past decade has truly challeng...
This paper provides an overview of a research and development effort sponsored by the NASA Advanced ...
Zugleich gedruckt erschienen im Universitätsverlag der TU Berlin unter der ISBN 978-3-7983-2337-7.Ak...