iTeh StandardsiTeh Standards
EURUSD
Your shopping cart is empty.
SIST

oSIST prEN 1991-1-8:2024

(Main)

Eurocode 1 - Actions on structures - Part 1-8: Actions from waves and currents on coastal structures

Eurocode 1 - Actions on structures - Part 1-8: Actions from waves and currents on coastal structures

(1) EN 1991-1-8 gives principles and rules to determine the values of wave and current actions on structures and civil engineering works in the coastal zone, i.e. works connected to, or in close vicinity to the shore.
NOTE 1   Provisions in EN 1991-1-8 are limited to hydrodynamic actions that can be directly quantified in terms of wave and/or current induced pressures and associated forces and moments on structures or structural parts.
NOTE 2   As opposed to offshore conditions, waves or currents in the coastal zone are generally affected by the presence of the seabed or shore.
NOTE 3   The coastal zone is typically defined as the area between the shoreline and the deep-water limit.
(2) EN 1991-1-8 describes the principles for defining the hydrodynamic conditions to be used for design, including sea water levels.
(3) EN 1991-1-8 addresses specifically actions from currents and waves on the following structure types:
   cylindrical structures;
   subsea pipelines;
   suspended decks;
   vertical face structures;
   permanently moored floating structures.
NOTE 1   Additional guidance can be needed for:
   moored structures in the coastal zone for renewable energy production or related to oil and gas production or processing;
   moored structures spanning areas with variable wave and current states (e.g. floating aquaculture farms or floating bridges).
NOTE 2   For hydraulic pressures caused by quasi-static water levels, and ground water, see EN 1997 (all parts).
(4) Actions addressed in EN 1991-1-8 do not cover:
   hydraulic resonance in sheltered areas or basins (phenomena also known as harbour resonance);
   translation waves, e.g. tsunamis;
   waves and currents induced by maritime operations, i.e. vessel wake, berthing and mooring;
   hydrodynamic actions induced by earthquakes;
   ice-induced pressures and forces;
   coastal structures where flood risk and/or erosion or sediment management is the dominant function.
1.2   Assumptions
1) The assumptions given in EN 1990 apply to this document.
(2) In addition, it is assumed that actions from waves and currents on coastal structures are determined by personnel appropriately qualified and experienced in the following fields:
a)   physical coastal environment including physics of waves and currents, statistical properties and propagation of such;
b)   marine hydrodynamics, wave and current interaction with structures in general and wave and current actions on structures in the coastal zone including i) fixed structures, and ii) floating structures;
c)   advanced methods including probabilistic methodology and physical model testing.

Eurocode 1 - Einwirkungen auf Tragwerke - Teil 1-8: Einwirkungen durch Wellen und Strömungen auf Küstenbauwerke

Eurocode 1 - Actions sur les structures - Partie 1-8 : Actions des vagues et des courants sur les structures côtières

Evrokod 1 - Vplivi na konstrukcije - 1-8. del: Vplivi valov in tokov na obalne konstrukcije

General Information

Status
Not Published
Public Enquiry End Date
29-Jun-2024
ICS
91.010.30 - Technical aspects
Technical Committee
KON - Structures
Current Stage
4020 - Public enquire (PE) (Adopted Project)
Start Date
04-Apr-2024
Due Date
22-Aug-2024
Completion Date
21-May-2024
Directive
305/2011 - Regulation (eu) No 305/2011 of the European Parliament and of the Council of 9 march 2011 laying down harmonised conditions for the marketing of construction products and repealing council directive 89/106/eec
Mandate
M/515 - Mandate for amending existing Eurocodes and extending the scope of structural Eurocodes
Ref Project
prEN 1991-1-8 - Eurocode 1 - Actions on structures - Part 1-8: Actions from waves and currents on coastal structures

Buy Standard

prEN 1991-1-8:2024prEN 1991-1-8:2024
PreviousNext
Draft
prEN 1991-1-8:2024
English language
215 pages
sale 10% off
Preview
sale 10% off
Preview
e-Library read for
1 day

Standards Content (Sample)


SLOVENSKI STANDARD
01-junij-2024
Evrokod 1 - Vplivi na konstrukcije - 1-8. del: Vplivi valov in tokov na obalne
konstrukcije
Eurocode 1 - Actions on structures - Part 1-8: Actions from waves and currents on
coastal structures
Eurocode 1 - Einwirkungen auf Tragwerke - Teil 1-8: Einwirkungen durch Wellen und
Strömungen auf Küstenbauwerke
Eurocode 1 - Actions sur les structures - Partie 1-8 : Actions des vagues et des courants
sur les structures côtières
Ta slovenski standard je istoveten z: prEN 1991-1-8
ICS:
91.010.30 Tehnični vidiki Technical aspects
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

DRAFT
EUROPEAN STANDARD
NORME EUROPÉENNE
EUROPÄISCHE NORM
March 2024
ICS 91.010.30
English Version
Eurocode 1 - Actions on structures - Part 1-8: Actions from
waves and currents on coastal structures
Eurocode 1 - Actions sur les structures - Partie 1-8 : Eurocode 1 - Einwirkungen auf Tragwerke - Teil 1-8:
Actions des vagues et des courants sur les structures Allgemeine Einwirkungen - Einwirkungen durch
côtières Wellen und Strömungen auf Küstenbauwerke
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee
CEN/TC 250.
If this draft becomes a European Standard, CEN members are bound to comply with the CEN/CENELEC Internal Regulations
which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.

This draft European Standard was established by CEN in three official versions (English, French, German). A version in any other
language made by translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC
Management Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Türkiye and
United Kingdom.
Recipients of this draft are invited to submit, with their comments, notification of any relevant patent rights of which they are
aware and to provide supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without
notice and shall not be referred to as a European Standard.

EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2024 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 1991-1-8:2024 E
worldwide for CEN national Members.

Contents
European foreword . 10
Introduction . 11
1 Scope . 14
1.1 Scope of EN 1991-1-8 . 14
1.2 Assumptions . 15
2 Normative references . 15
3 Terms, definitions and symbols . 16
3.1 Terms and definitions . 16
3.1.1 Terms relating to physical environment and environmental processes. 16
3.1.2 Terms relating to analysis of metocean parameters . 19
3.1.3 Terms relating to statistical metocean parameters . 22
3.1.4 Terms relating to metocean effects in interaction with structures . 27
3.1.5 Terms relating to coastal structures . 30
3.2 Symbols and abbreviations . 33
3.2.1 Latin upper-case letters . 33
3.2.2 Latin lower-case letters . 36
3.2.3 Greek upper-case letters . 37
3.2.4 Greek lower-case letters . 37
4 Basis of wave and current action assessment . 39
4.1 General. 39
4.2 Design approaches . 39
4.2.1 General. 39
4.2.2 Semi-probabilistic design approach . 39
4.2.3 Reliability-based design approach . 39
4.2.4 Risk-informed decision-making design approach . 40
4.2.5 Design assisted by physical testing . 40
4.3 Action modelling . 40
4.3.1 Classification of actions from waves and currents . 40
4.3.2 Metocean parameters. 40
4.3.3 General methods for the assessment of the hydrodynamic loads . 41
4.4 Design situations . 41
4.5 Geometrical parameters . 42
4.6 Hydrodynamic estimate approaches . 43
4.7 Representative values of hydrodynamic loads . 45
4.7.1 General. 45
4.7.2 Characteristic value . 47
4.7.3 Combination value . 47
4.7.4 Frequent value . 47
4.7.5 Quasi-permanent value . 48
4.8 Design value and importance factor . 48
4.9 Specific combinations rules for metocean parameters . 49
4.9.1 General provisions . 49
4.9.2 Combination rules using marginal distributions of the metocean parameters
(marginal deep-sea extremes method) . 50
4.9.3 Combination rules using joint distributions of the metocean parameters (joint deep-
sea extremes method) . 50
4.9.4 Specific combination rules between waves, currents and wind . 51
4.10 Accidental metocean events . 52
5 Hydrodynamic conditions . 53
5.1 General . 53
5.1.1 Metocean design description . 53
5.1.2 Metocean data . 53
5.1.3 Wave and current interactions with structures . 53
5.2 Design event probability and extreme values analysis . 54
5.2.1 General . 54
5.2.2 Extreme value analysis . 55
5.3 Water levels . 56
5.3.1 Design water level . 56
5.3.2 Water level measurements . 56
5.3.3 Tides . 56
5.3.4 Surges . 57
5.4 Waves . 57
5.4.1 General . 57
5.4.2 Wave set-up . 58
5.4.3 Frequency and directional distribution of waves . 58
5.4.4 Spectral wave description . 58
5.4.5 Storm-representative wave parameters . 59
5.4.6 Wave data sources . 59
5.4.7 Wave transformation . 60
5.4.8 Wave data for extreme value analysis . 61
5.4.9 Nearshore wave processes . 61
5.4.10 Regular wave theories . 62
5.4.11 Wave shape and kinematics . 62
5.4.12 Long waves . 64
5.5 Currents . 65
5.5.1 General . 65
5.5.2 Current data sources . 65
5.5.3 Current velocity and profile . 66
5.6 Climate change . 66
6 Wave and current actions on fixed cylindrical structures and suspended decks . 67
6.1 General .
...

Questions, Comments and Discussion

Ask us and Technical Secretary will try to provide an answer. You can facilitate discussion about the standard in here.

This May Also Interest You

SIST
SIST-TS CEN/TS 1090-201:2025(Main)
Execution of steel structures and aluminium structures - Reuse of structural steel
CEN/TS 1090-201:2024

This CEN/TS gives complementary provisions for the use of reclaimed structural components in the execution of steel structures in EXC1 to EXC3 according to EN 1090-2. The provisions apply to products used in structures to be designed according to EN 1993-1-1 without seismic and/or fatigue design.  
This CEN/TS specifies requirements for the reusability assessment of reclaimed structural components and the declaration of mechanical and geometrical properties as well as weldability. The properties to be declared are those listed as required relevant properties to be specified according to clause 5.1 of EN 1090-2:
• strength (yield and tensile);
• elongation;
• tolerances on dimensions and shape;
• heat treatment delivery conditions;
• weldability.
This CEN/TS applies to reclaimed hot rolled profiles and hot finished or cold formed hollow sections used as constituent products according to EN 1090-2.
This CEN/TS can also be used for the assessment of the aforementioned properties of fabricated products.
The recommendations for the assessment of connections however, and in particular of welds, is non exhaustive and only informative.
This CEN/TS is not intended for thin gauge products according to EN 1090-4 or mechanical fasteners.

  • Technical specification
    30 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST-TS CEN/TS 19101:2023(Main)
Design of fibre-polymer composite structures
CEN/TS 19101:2022

1.1   Scope of FprCEN/TS 19101
(1) This document applies to the design of buildings, bridges and other civil engineering structures in fibre-polymer composite materials, including permanent and temporary structures. It complies with the principles and requirements for the safety, serviceability and durability of structures, the basis of their design and verification that are given in EN 1990.
NOTE   In this document, fibre-polymer composite materials are referred to as composite materials or as composites.
(2) This document is only concerned with the requirements for resistance, serviceability, durability and fire resistance of composite structures.
NOTE 1   Specific requirements concerning seismic design are not considered.
NOTE 2   Other requirements, e.g. concerning thermal or acoustic insulation, are not considered.
(3) This document gives a general basis for the design of composite structures composed of (i) composite members, or (ii) combinations of composite members and members of other materials (hybrid-composite structures), and (iii) the joints between these members.
(4) This document applies to composite structures in which the values of material temperature in members, joints and components in service conditions are (i) higher than -40 °C and (ii) lower than   - 20 °C, where   is the glass transition temperature of composite, core and adhesive materials, defined according to 5.1(1).
(5) This document applies to:
(i) composite members, i.e. profiles and sandwich panels, and
(ii) bolted, bonded and hybrid joints and their connections.
NOTE 1   Profiles and sandwich panels can be applied in structural systems such as beams, columns, frames, trusses, slabs, plates and shells.
NOTE 2   Sandwich panels include homogenous core and web-core panels. In web-core panels, the cells between webs can be filled (e.g. with foam) or remain empty (e.g. panels from pultruded profiles).
NOTE 3   This document does not apply to sandwich panels made of metallic face sheets.
NOTE 4   Built-up members can result from the assembly of two or more profiles, through bolting and/or adhesive bonding.
NOTE 5   The main manufacturing processes of composite members include pultrusion, filament winding, hand layup, resin transfer moulding (RTM), resin infusion moulding (RIM), vacuum-assisted resin transfer moulding (VARTM).
NOTE 6   This document does not apply to composite cables or special types of civil engineering works (e.g. pressure vessels, tanks or chemical storage containers).
(6) This document applies to:
(i) the composite components of composite members, i.e. composite plies, composite laminates, sandwich cores and plates or profiles, and
(ii) the components of joints or their connections, i.e. connection plates or profiles (e.g. cleats), bolts, and adhesive layers.
NOTE 1   Composite components are composed of composite materials (i.e. fibres and matrix resins) and core materials. Components of joints and their connections are also composed of composite, steel or adhesive materials.
NOTE 2   The fibre architecture of composite components can comprise a single type of fibres or a hybrid of two or more types of fibres.
NOTE 3   This document does not apply to composite components used for internal reinforcement of concrete structures (composite rebars) or strengthening of existing structures (composite rebars, strips or sheets).
(7) This document applies to composite materials, comprising:
(i) glass, carbon, basalt or aramid fibres, and
(ii) a matrix based on unsaturated polyester, vinylester, epoxy or phenolic thermoset resins.

  • Technical specification
    238 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 1998-1:2005/A101:2009/AC:2022
Eurocode 8: Design of structures for earthquake resistance - Part 1: General rules, seismic actions and rules for buildings - National annex - Corrigendum
  • Corrigendum
    2 pages
    Slovenian language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST-TS CEN/TS 19103:2022(Main)
Eurocode 5: Design of Timber Structures - Structural design of timber-concrete composite structures - Common rules and rules for buildings
CEN/TS 19103:2021

1.1   Scope of CEN/TS 19103
(1)   CEN/TS 19103 gives general design rules for timber-concrete composite structures.
(2)   It provides requirements for materials, design parameters, connections, detailing and execution for timber-concrete composite structures. Recommendations for environmental parameters (temperature and moisture content), design methods and test methods are given in the Annexes.
(3)   It includes rules common to many types of timber-concrete composite, but does not include details for the design of glued timber-concrete composites, nor for bridges.
NOTE   For the design of glued timber-concrete composites or bridges alternative references are available.
(4)   It covers the design of timber-concrete composite structures in both quasi-constant and variable environmental conditions. For ease of use, it provides simple design rules for quasi-constant environmental conditions and more complex rules for variable environmental conditions.
1.2   Assumptions
(1)   The general assumptions of EN 1990 apply.
(2)   CEN/TS 19103 is intended to be used in conjunction with EN 1990, EN 1991 (all parts), EN  1992 (all parts), EN  1994 (all parts), EN 1995 (all parts), EN 1998 (all parts) when timber structures are built in seismic regions, and ENs for construction products relevant to timber structures.

  • Technical specification
    58 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 1993-1-4:2007/A2:2021(Amendment)
Eurocode 3 - Design of steel structures - Part 1-4: General rules - Supplementary rules for stainless steels
EN 1993-1-4:2006/A2:2020

DOP of 12 months

  • Amendment
    4 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST-TS CEN/TS 17440:2020(Main)
Assessment and retrofitting of existing structures
CEN/TS 17440:2020

1.1   Scope of CEN/TS 17440
(1)This document provides additional or amended provisions to EN 1990 to cover the assessment of existing structures (see EN 1990:2002, 1.1(4)), and the retained parts of existing structures that are being modified, extended, strengthened or retrofitted.
NOTE 1   The assessment of an existing structure is, in many aspects, different from the design of a new structure, see Introduction.
NOTE 2   There can be some aspects of EN 1990 that are required for design but are not applicable for assessment. The definition of those aspects of EN 1990 that are not applicable can be included in the definition of the assessment objectives and the approach to the assessment, see 5.
NOTE 3   This document is based on the general requirements and principles of structural reliability provided in Eurocodes EN 1990 and EN 1991.
(2) This document covers general principles regarding actions for assessment complementing EN 1991.
NOTE   Supplementary provisions for seismic actions due to earthquake are provided in EN 1998.
(3) This document includes general principles for the assessment of the structural resistance of existing structures.
NOTE   The specific models used to assess resistance are not provided in this document and will depend on the materials and structure types.
(4) This document does not provide specific rules for initiation of assessment.
(5) This document does not provide specific rules on how to undertake interventions that can be carried out as a result of an assessment.
(6) This document does not cover the design of new elements that will be integrated into an existing structure.
NOTE   For the design of new elements, see EN 1990.
1.2   Assumptions
(1) The general assumptions of CEN/TS 17440 are:
-   the assessment of the structure is made by appropriately qualified and experienced personnel;
-   adequate supervision and quality control is provided during the assessment process;
-   the structure will be used in accordance with the assessment assumptions;
-   the structure will be maintained in accordance with the assessment assumptions.

  • Technical specification
    50 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 1993-1-5:2007/A2:2019(Amendment)
Eurocode 3 - Design of steel structures - Part 1-5: Plated structural elements
EN 1993-1-5:2006/A2:2019

EN 1993-1-5 gives design requirements of stiffened and unstiffened plates which are subject to inplane forces. Effects due to shear lag, in-plane load introduction and plate buckling for I-section girders and box girders are covered. Also covered are plated structural components subject to in-plane loads as in tanks and silos. The effects of out-of-plane loading are outside the scope of this document.

  • Amendment
    4 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 1992-1-2:2005/A1:2019(Amendment)
Eurocode 2: Design of concrete structures - Part 1-2: General rules - Structural fire design
EN 1992-1-2:2004/A1:2019

DOP of 12 months!

  • Amendment
    30 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 1992-4:2018(Main)
Eurocode 2 - Design of concrete structures - Part 4: Design of fastenings for use in concrete
EN 1992-4:2018

1.1   General
(1) This European Standard provides a design method for fastenings (connection of structural elements and non-structural elements to structural components), which are used to transmit actions to the concrete. This design method uses physical models which are based on a combination of tests and numerical analysis consistent with EN 1990:2002, 5.2.
The requirements for the transmission of the fastener loads within the concrete member to its supports are given in EN 1992-1-1 and Annex A of this EN.
Inserts embedded in precast concrete elements during production, under Factory Production Control (FPC) conditions and with the due reinforcement, intended for use only during transient situations for lifting and handling, are covered by CEN/TR 15728.
(2) This EN is intended for safety related applications in which the failure of fastenings may result in collapse or partial collapse of the structure, cause risk to human life or lead to significant economic loss. In this context it also covers non-structural elements.
(3) The support of the fixture can be either statically determinate or statically indeterminate. Each support can consist of one fastener or a group of fasteners.
(4) This EN is valid for applications which fall within the scope of the EN 1992 series. In applications where special considerations apply, e.g. nuclear power plants or civil defence structures, modifications can be necessary.
(5) This EN does not cover the design of the fixture. The requirements for the design of the fixture are given in the appropriate Standards and fulfil the requirements on the fixture as given in this EN.
(6) This document relies on characteristic resistances and distances which are stated in a European Technical Product Specification (see Annex E). At least the characteristics of Annex E are given in a European Technical Product Specification for the corresponding loading conditions providing a basis for the design methods of this EN.
NOTE   The numerical values for certain parameters given in Notes can be used for pre-dimensioning. The values for verification are given in the European Technical Product Specifications and may be different.
1.2   Type of fasteners and fastening groups
(1)   This EN uses the fastener design theory ) (see Figure 1.1) and applies to:
a)   cast-in fasteners such as headed fasteners, anchor channels with rigid connection (e.g. welded, forged) between anchor and channel;
b)   post-installed mechanical fasteners such as expansion fasteners, undercut fasteners and concrete screws;
c)   post-installed bonded fasteners and bonded expansion fasteners.
(2)   For other types of fasteners modifications of the design provisions can be necessary.
(3)   This EN applies to fasteners with established suitability for the specified application in concrete covered by provisions, which refer to this EN and provide data required by this EN. The suitability of the fastener is stated in the relevant European Technical Product Specification.
(...)
(4)   This EN applies to single fasteners and groups of fasteners. In a group of fasteners the loads are applied to the individual fasteners of the group by means of a common fixture. In a group of fasteners this European Standard applies only if fasteners of the same type and size are used.
(5)   The configurations of fastenings with cast-in place headed fasteners and post-installed fasteners covered by this EN are shown in Figure 1.2.
(6)   For anchor channels the number of anchors is not limited.
(...)
(7)   Post-installed ribbed reinforcing bars used to connect concrete members are covered by a European Technical Product Specification. This EN applies when connections are designed in accordance with EN 1992-1-1.
1.3   Fastener dimensions and materials
(1)   This EN applies to fasteners with a minimum diameter or a minimum thread size of 6 mm (M6) or a corresponding cross section. (....)

  • Standard
    129 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST-TP CEN/TR 17231:2018(Main)
Eurocode 1: Actions on Structures - Traffic Loads on Bridges - Track-Bridge Interaction
CEN/TR 17231:2018

This Technical Report reviews current practice with regard to designing, constructing and maintaining the parts of bridges and tracks where railway rails are installed across discontinuities in supporting structures. Current Standards and Codes of Practice are examined and some particular case histories are reviewed. The Technical Report gives guidance with respect to current best practice and makes recommendations for future standards development and also identifies areas in which further research and development is needed.

  • Technical report
    105 pages
    English language
    sale 10% off
    e-Library read for
    1 day