Details
| Originalsprache | Englisch |
|---|---|
| Titel des Sammelwerks | European Wind Energy Conference and Exhibition 2009, EWEC 2009 |
| Seiten | 4148-4154 |
| Seitenumfang | 7 |
| Publikationsstatus | Veröffentlicht - 2009 |
| Veranstaltung | European Wind Energy Conference and Exhibition 2009, EWEC 2009 - Marseille, Frankreich Dauer: 16 März 2009 → 19 März 2009 |
Publikationsreihe
| Name | European Wind Energy Conference and Exhibition 2009, EWEC 2009 |
|---|---|
| Band | 6 |
Abstract
RAVE - "Research at alpha ventus" coordinates different projects connected to the German offshore test site "alpha ventus". One of these projects is GIGAWIND alpha ventus taking the OWEC support structures into focus. The main objectives in this field of structural design are foremost the reduction of both material and personal costs. This endeavour primarily requires a holistic view on the design process encompassing the following design aspects: Load modelling - analysis of multidirectional wave loads for the estimation of optimized sea state coefficients and correlation with wind loads. Fatigue - varying influence of manufacturing aspects represented by large safety factors. Corrosion - corrosion protection for offshore steel structures. Monitoring - reliable load monitoring at global and local components of the structure. Scour - development of new scour protection systems and local scour monitoring. Foundation - modelling of the load-carrying behaviour of driven offshore piles. Validation - Automated validation of general structural models. With the integration of separate computational tools into an easy operable simulation and design package with common interfaces the efforts focusing on the design process will be minimised. Overall objective of the project is to conceptualize and develop a holistic design concept for OWEC support structures, which is achieved in a modular approach in order that updated routines and further extensions can be easily implemented.
Schlagwörter
- Computational tools, Design packages, Design process, Holistic design, Holistic view, Load carrying, Load modelling, Load monitoring, Local scour, Modular approach, Multi-directional, Offshore pile, Offshore steel structures, Offshore wind farms, Scour protection, Sea state, Structural models, Support structures, Test site, Wave load, Wind load, Exhibitions, Model structures, Ocean currents, Product design, Safety factor, Scour, Structural design, Wind power, Ground supports
ASJC Scopus Sachgebiete
- Energie (insg.)
- Energieanlagenbau und Kraftwerkstechnik
- Energie (insg.)
- Erneuerbare Energien, Nachhaltigkeit und Umwelt
Ziele für nachhaltige Entwicklung
Zitieren
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- RIS
European Wind Energy Conference and Exhibition 2009, EWEC 2009. 2009. S. 4148-4154 (European Wind Energy Conference and Exhibition 2009, EWEC 2009; Band 6).
Publikation: Beitrag in Buch/Bericht/Sammelwerk/Konferenzband › Aufsatz in Konferenzband › Forschung › Peer-Review
}
TY - GEN
T1 - Research on support structures in the german offshore wind farm alpha ventus
AU - Haake, G.
AU - Rolfes, R.
AU - Schaumann, P.
AU - Huhn, H.
AU - Schlurmann, T.
AU - Lohaus, L.
AU - Achmus, M.
N1 - Export Date: 1 February 2021
PY - 2009
Y1 - 2009
N2 - RAVE - "Research at alpha ventus" coordinates different projects connected to the German offshore test site "alpha ventus". One of these projects is GIGAWIND alpha ventus taking the OWEC support structures into focus. The main objectives in this field of structural design are foremost the reduction of both material and personal costs. This endeavour primarily requires a holistic view on the design process encompassing the following design aspects: Load modelling - analysis of multidirectional wave loads for the estimation of optimized sea state coefficients and correlation with wind loads. Fatigue - varying influence of manufacturing aspects represented by large safety factors. Corrosion - corrosion protection for offshore steel structures. Monitoring - reliable load monitoring at global and local components of the structure. Scour - development of new scour protection systems and local scour monitoring. Foundation - modelling of the load-carrying behaviour of driven offshore piles. Validation - Automated validation of general structural models. With the integration of separate computational tools into an easy operable simulation and design package with common interfaces the efforts focusing on the design process will be minimised. Overall objective of the project is to conceptualize and develop a holistic design concept for OWEC support structures, which is achieved in a modular approach in order that updated routines and further extensions can be easily implemented.
AB - RAVE - "Research at alpha ventus" coordinates different projects connected to the German offshore test site "alpha ventus". One of these projects is GIGAWIND alpha ventus taking the OWEC support structures into focus. The main objectives in this field of structural design are foremost the reduction of both material and personal costs. This endeavour primarily requires a holistic view on the design process encompassing the following design aspects: Load modelling - analysis of multidirectional wave loads for the estimation of optimized sea state coefficients and correlation with wind loads. Fatigue - varying influence of manufacturing aspects represented by large safety factors. Corrosion - corrosion protection for offshore steel structures. Monitoring - reliable load monitoring at global and local components of the structure. Scour - development of new scour protection systems and local scour monitoring. Foundation - modelling of the load-carrying behaviour of driven offshore piles. Validation - Automated validation of general structural models. With the integration of separate computational tools into an easy operable simulation and design package with common interfaces the efforts focusing on the design process will be minimised. Overall objective of the project is to conceptualize and develop a holistic design concept for OWEC support structures, which is achieved in a modular approach in order that updated routines and further extensions can be easily implemented.
KW - Computational tools
KW - Design packages
KW - Design process
KW - Holistic design
KW - Holistic view
KW - Load carrying
KW - Load modelling
KW - Load monitoring
KW - Local scour
KW - Modular approach
KW - Multi-directional
KW - Offshore pile
KW - Offshore steel structures
KW - Offshore wind farms
KW - Scour protection
KW - Sea state
KW - Structural models
KW - Support structures
KW - Test site
KW - Wave load
KW - Wind load
KW - Exhibitions
KW - Model structures
KW - Ocean currents
KW - Product design
KW - Safety factor
KW - Scour
KW - Structural design
KW - Wind power
KW - Ground supports
UR - http://www.scopus.com/inward/record.url?scp=84870021493&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84870021493
SN - 9781615677467
T3 - European Wind Energy Conference and Exhibition 2009, EWEC 2009
SP - 4148
EP - 4154
BT - European Wind Energy Conference and Exhibition 2009, EWEC 2009
T2 - European Wind Energy Conference and Exhibition 2009, EWEC 2009
Y2 - 16 March 2009 through 19 March 2009
ER -