Conceptual design of an UHPFRC tower structure in segmental construction for offshore wind turbines
W. Sobek, M. Plank, B. Frettlöhr, J. Röhm, and D. Corvez. Designing and building with UHPFRC - from innovation to large-scale realizations, RILEM-fib-AFGC International Symposium on Ultra-High Performance Fibre-Reinforced Concrete, October 1-3, 2013, Marseille, France, page 423--432. Bagneux, RILEM, (2013)
Abstract
Apart from a few limited exceptions the vast majority of offshore wind turbines consist of substructures and towers made of steel. Some innovative concepts use gravity based hybrid constructions.
An economically and ecologically promising alternative could be the substitution of the steel tower by a centrically prestressed tower that combines the use of ultra-high performance fibre reinforced concrete (UHPFRC) with the segmental construction method.
In this paper the concept of the UHPFRC tower structure is presented. Within the limits of the conceptual design an Eigen frequency analysis was conducted. The results of the analysis were evaluated with respect to the Campbell-Diagram and point to the feasibility of this innovative concept.
Designing and building with UHPFRC - from innovation to large-scale realizations, RILEM-fib-AFGC International Symposium on Ultra-High Performance Fibre-Reinforced Concrete, October 1-3, 2013, Marseille, France
%0 Conference Paper
%1 sobek_conceptual_2013
%A Sobek, Werner
%A Plank, Markus
%A Frettlöhr, Björn
%A Röhm, Jochen
%A Corvez, Dominique
%B Designing and building with UHPFRC - from innovation to large-scale realizations, RILEM-fib-AFGC International Symposium on Ultra-High Performance Fibre-Reinforced Concrete, October 1-3, 2013, Marseille, France
%C Bagneux
%D 2013
%I RILEM
%K Equations Finite Mechatronics, Multiobjective Observability, Sensors, Simulated State Structural annealing, element estimation method, motion, of optimization, sobek
%P 423--432
%T Conceptual design of an UHPFRC tower structure in segmental construction for offshore wind turbines
%X Apart from a few limited exceptions the vast majority of offshore wind turbines consist of substructures and towers made of steel. Some innovative concepts use gravity based hybrid constructions.
An economically and ecologically promising alternative could be the substitution of the steel tower by a centrically prestressed tower that combines the use of ultra-high performance fibre reinforced concrete (UHPFRC) with the segmental construction method.
In this paper the concept of the UHPFRC tower structure is presented. Within the limits of the conceptual design an Eigen frequency analysis was conducted. The results of the analysis were evaluated with respect to the Campbell-Diagram and point to the feasibility of this innovative concept.
@inproceedings{sobek_conceptual_2013,
abstract = {Apart from a few limited exceptions the vast majority of offshore wind turbines consist of substructures and towers made of steel. Some innovative concepts use gravity based hybrid constructions.
An economically and ecologically promising alternative could be the substitution of the steel tower by a centrically prestressed tower that combines the use of ultra-high performance fibre reinforced concrete (UHPFRC) with the segmental construction method.
In this paper the concept of the UHPFRC tower structure is presented. Within the limits of the conceptual design an Eigen frequency analysis was conducted. The results of the analysis were evaluated with respect to the Campbell-Diagram and point to the feasibility of this innovative concept.},
added-at = {2023-11-27T15:10:57.000+0100},
address = {Bagneux},
author = {Sobek, Werner and Plank, Markus and Frettlöhr, Björn and Röhm, Jochen and Corvez, Dominique},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2c29141035f570cda80fb93ec5bcffeff/jmueller},
booktitle = {Designing and building with {UHPFRC} - from innovation to large-scale realizations, {RILEM}-fib-{AFGC} {International} {Symposium} on {Ultra}-{High} {Performance} {Fibre}-{Reinforced} {Concrete}, {October} 1-3, 2013, {Marseille}, {France}},
interhash = {3233769dc419ff9cffe0e42e94d6be35},
intrahash = {c29141035f570cda80fb93ec5bcffeff},
keywords = {Equations Finite Mechatronics, Multiobjective Observability, Sensors, Simulated State Structural annealing, element estimation method, motion, of optimization, sobek},
pages = {423--432},
publisher = {RILEM},
timestamp = {2023-11-27T15:10:57.000+0100},
title = {Conceptual design of an {UHPFRC} tower structure in segmental construction for offshore wind turbines},
year = 2013
}