Add to ORKGA summary of the work performed during the progress period is presented. Analysis methods for predicting loads and instabilities of wind turbines were developed. Three new areas of research to aid the Advanced Turboprop Project (ATP) were initiated and developed. These three areas of research are aeroelastic analysis methods for cascades including blade and disk flexibility; stall flutter analysis; and computational aeroelasticity
Aeroelastic stability analyses were performed to insure structural integrity of two counterrotating ...
With the continuous increasing size and flexibility of large wind turbine blades, aeroelasticity has...
Wind turbine blades are growing progressively larger and lighter relative to their size, and these t...
A summary of the work performed from 1996 to 1997 is presented. More details can be found in the cit...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
This report reviews aeroelastic analyses for propulsion components (propfans, compressors and turbin...
A literature survey of wind turbine aeroelastic stability is presented. The subject received early i...
An aeroelastic investigation of horizontal axis wind turbines is described. The study is divided int...
An overview of the methods and concepts developed to enhance and predict structural dynamic characte...
The purpose of this report is to provide a description of the overall thrust, past relevant accompli...
A workshop on wind turbine structural dynamics was held to review and document current United States...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
Theoretical and experimental developments in the aeroelastic and aeromechanical stability of helicop...
Horizontal axis wind turbine dynamics were studied. The following findings are summarized: (1) revie...
A structural and aeroelastic analysis of the SR-7L advanced turboprop is presented. Analyses were co...
Aeroelastic stability analyses were performed to insure structural integrity of two counterrotating ...
With the continuous increasing size and flexibility of large wind turbine blades, aeroelasticity has...
Wind turbine blades are growing progressively larger and lighter relative to their size, and these t...
A summary of the work performed from 1996 to 1997 is presented. More details can be found in the cit...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
This report reviews aeroelastic analyses for propulsion components (propfans, compressors and turbin...
A literature survey of wind turbine aeroelastic stability is presented. The subject received early i...
An aeroelastic investigation of horizontal axis wind turbines is described. The study is divided int...
An overview of the methods and concepts developed to enhance and predict structural dynamic characte...
The purpose of this report is to provide a description of the overall thrust, past relevant accompli...
A workshop on wind turbine structural dynamics was held to review and document current United States...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
Theoretical and experimental developments in the aeroelastic and aeromechanical stability of helicop...
Horizontal axis wind turbine dynamics were studied. The following findings are summarized: (1) revie...
A structural and aeroelastic analysis of the SR-7L advanced turboprop is presented. Analyses were co...
Aeroelastic stability analyses were performed to insure structural integrity of two counterrotating ...
With the continuous increasing size and flexibility of large wind turbine blades, aeroelasticity has...
Wind turbine blades are growing progressively larger and lighter relative to their size, and these t...