Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea

Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea

In the near future, several offshore wind farms are planned to be built in the North Sea. Therefore, jacket and tripod constructions with mainly axially loaded piles are suitable as support structures. The current design of axial bearing resistance of these piles leads to deviant results regarding t...

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Main Authors: Kirill A. Schmoor, Martin Achmus, Aligi Foglia, Maik Wefer
Format: Article
Language:English
Published: Elsevier 2018-12-01
Series:Journal of Rock Mechanics and Geotechnical Engineering
Online Access:http://www.sciencedirect.com/science/article/pii/S1674775517303645
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spelling doaj-5b04dcf3c3de4ca1be433660695f06622020-11-24T21:01:23ZengElsevierJournal of Rock Mechanics and Geotechnical Engineering1674-77552018-12-0110611121121Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North SeaKirill A. Schmoor0Martin Achmus1Aligi Foglia2Maik Wefer3Institute for Geotechnical Engineering, Leibniz University Hannover, Hannover, 30167, Germany; Corresponding author.Institute for Geotechnical Engineering, Leibniz University Hannover, Hannover, 30167, GermanyFraunhofer Institute for Wind Energy Systems (IWES), Bremerhaven, 27572, GermanyFraunhofer Institute for Wind Energy Systems (IWES), Bremerhaven, 27572, GermanyIn the near future, several offshore wind farms are planned to be built in the North Sea. Therefore, jacket and tripod constructions with mainly axially loaded piles are suitable as support structures. The current design of axial bearing resistance of these piles leads to deviant results regarding the pile resistance when different design methods are adopted. Hence, a strong deviation regarding the required pile length must be addressed. The reliability of a design method can be evaluated based on a model error which describes the quality of the considered design method by comparing measured and predicted pile bearing resistances. However, only few pile load tests are reported with regard to the boundary conditions in the North Sea. This paper presents 6 large-scale axial pile load tests which were incorporated within a new model error approach for the current design methods used for the axial bearing resistance, namely API Main Text method and cone penetration test (CPT)-based design methods, such as simplified ICP-05, offshore UWA-05, Fugro-05 and NGI-05 methods. Based on these new model errors, a reliability-based study towards the safety was conducted by performing a Monte-Carlo simulation. In addition, consequences regarding the deterministic pile design in terms of quality factors were evaluated. It is shown that the current global safety factor (GSF) prescribed and the partial safety factors are only valid for the API Main Text and the offshore UWA-05 design methods; whereas for the simplified ICP-05, Fugro-05 and NGI-05 design methods, an increase in the required embedded pile length and thus in the GSF up to 2.69, 2.95 and 3.27, respectively, should be considered to satisfy the desired safety level according to DIN EN 1990 of β = 3.8. Further, quality factors for each design method on the basis of all reliability-based design results were derived. Hence, evaluation of each design method regarding the reliability of the pile capacity prediction is possible. Keywords: Pile load test, Model error, System reliability, Global safety factors (GSFs), Quality factorshttp://www.sciencedirect.com/science/article/pii/S1674775517303645
collection DOAJ
language English
format Article
sources DOAJ
author Kirill A. Schmoor
Martin Achmus
Aligi Foglia
Maik Wefer
spellingShingle Kirill A. Schmoor
Martin Achmus
Aligi Foglia
Maik Wefer
Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea
Journal of Rock Mechanics and Geotechnical Engineering
author_facet Kirill A. Schmoor
Martin Achmus
Aligi Foglia
Maik Wefer
author_sort Kirill A. Schmoor
title Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea
title_short Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea
title_full Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea
title_fullStr Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea
title_full_unstemmed Reliability of design approaches for axially loaded offshore piles and its consequences with respect to the North Sea
title_sort reliability of design approaches for axially loaded offshore piles and its consequences with respect to the north sea
publisher Elsevier
series Journal of Rock Mechanics and Geotechnical Engineering
issn 1674-7755
publishDate 2018-12-01
description In the near future, several offshore wind farms are planned to be built in the North Sea. Therefore, jacket and tripod constructions with mainly axially loaded piles are suitable as support structures. The current design of axial bearing resistance of these piles leads to deviant results regarding the pile resistance when different design methods are adopted. Hence, a strong deviation regarding the required pile length must be addressed. The reliability of a design method can be evaluated based on a model error which describes the quality of the considered design method by comparing measured and predicted pile bearing resistances. However, only few pile load tests are reported with regard to the boundary conditions in the North Sea. This paper presents 6 large-scale axial pile load tests which were incorporated within a new model error approach for the current design methods used for the axial bearing resistance, namely API Main Text method and cone penetration test (CPT)-based design methods, such as simplified ICP-05, offshore UWA-05, Fugro-05 and NGI-05 methods. Based on these new model errors, a reliability-based study towards the safety was conducted by performing a Monte-Carlo simulation. In addition, consequences regarding the deterministic pile design in terms of quality factors were evaluated. It is shown that the current global safety factor (GSF) prescribed and the partial safety factors are only valid for the API Main Text and the offshore UWA-05 design methods; whereas for the simplified ICP-05, Fugro-05 and NGI-05 design methods, an increase in the required embedded pile length and thus in the GSF up to 2.69, 2.95 and 3.27, respectively, should be considered to satisfy the desired safety level according to DIN EN 1990 of β = 3.8. Further, quality factors for each design method on the basis of all reliability-based design results were derived. Hence, evaluation of each design method regarding the reliability of the pile capacity prediction is possible. Keywords: Pile load test, Model error, System reliability, Global safety factors (GSFs), Quality factors
url http://www.sciencedirect.com/science/article/pii/S1674775517303645
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AT martinachmus reliabilityofdesignapproachesforaxiallyloadedoffshorepilesanditsconsequenceswithrespecttothenorthsea
AT aligifoglia reliabilityofdesignapproachesforaxiallyloadedoffshorepilesanditsconsequenceswithrespecttothenorthsea
AT maikwefer reliabilityofdesignapproachesforaxiallyloadedoffshorepilesanditsconsequenceswithrespecttothenorthsea
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