Free-standing chimneys - Part 2: Concrete chimneys

This European Standard specifies particular requirements and performance criteria for the design and construction of cast-in-situ concrete chimneys as well as prefabricated concrete chimneys. It identifies requirements to ensure the mechanical resistance and stability of concrete chimneys in accordance with the general requirements given in EN 13084-1.
As for chimneys attached to buildings the criteria given in Clause 1 of EN 13084-1:2000 apply.
Unless otherwise stated in the following clauses the basic standard for the design of concrete structures, EN 1992 1 1, applies.

Freistehende Schornsteine - Teil 2: Betonschornsteine

Dieses Dokument behandelt die besonderen Anforderungen und Leistungskriterien für die Bemessung und
Ausführung von Ortbeton-Schornsteinen und Fertigteil-Schornsteinen. Sie gibt Anforderungen an, die die
mechanische Festigkeit und Standsicherheit von Betonschornsteinen nach den in EN 13084-1 angegebenen
allgemeinen Anforderungen sicherstellen.
Für an Gebäuden abgestützte Schornsteine gelten die in Abschnitt 1 von EN 13084-1:2000 angegebenen
Kriterien.
Sofern es in den folgenden Abschnitten nicht anders angegeben ist, gilt die Grundnorm für die Bemessung
von Betontragwerken ENV 1992-1-1.

Cheminées indépendantes - Partie 2: Cheminées en béton

La présente Norme européenne spécifie les exigences particulières et les critères de performances relatifs à la conception et à la La présente Norme européenne spécifie les exigences particulières et les critères de performances relatifs à la conception et à la construction des cheminées en béton coulé sur place et en béton préfabriqué. Elle identifie les exigences permettant de garantir la résistance mécanique et la stabilité des cheminées en béton conformément aux exigences générales indiquées dans l’EN 13084-1.
En ce qui concerne les cheminées reliées aux bâtiments, les critères de l’Article 1 de l’EN 13084-1:2000 s’appliquent.
Sauf indication contraire dans les articles suivants, la norme de base relative à la conception des structures en béton, à savoir l’EN 1992-1-1, s’applique.
construction des cheminées en béton coulé sur place et en béton préfabriqué. Elle identifie les exigences permettant de garantir la résistance mécanique et la stabilité des cheminées en béton conformément aux exigences générales indiquées dans l’EN 13084-1.
En ce qui concerne les cheminées reliées aux bâtiments, les critères de l’Article 1 de l’EN 13084-1:2000 s’appliquent.
Sauf indication contraire dans les articles suivants, la norme de base relative à la conception des structures en béton, à savoir l’EN 1992-1-1, s’applique.

Prostostoječi dimniki - 2. del: Betonski dimniki

General Information

Status
Published
Publication Date
19-Jun-2007
Technical Committee
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
14-Jun-2007
Due Date
19-Aug-2007
Completion Date
20-Jun-2007

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Freistehende Schornsteine - Teil 2: BetonschornsteineCheminées indépendantes - Partie 2: Cheminées en bétonFree-standing chimneys - Part 2: Concrete chimneys91.100.30Beton in betonski izdelkiConcrete and concrete products91.060.40Dimniki, jaški, kanaliChimneys, shafts, ductsICS:Ta slovenski standard je istoveten z:EN 13084-2:2007SIST EN 13084-2:2007en,de01-julij-2007SIST EN 13084-2:2007SLOVENSKI
STANDARDSIST EN 13084-2:20041DGRPHãþD



SIST EN 13084-2:2007



EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN 13084-2May 2007ICS 91.060.40Supersedes EN 13084-2:2001
English VersionFree-standing chimneys - Part 2: Concrete chimneysCheminées indépendantes - Partie 2: Cheminées en bétonFreistehende Schornsteine - Teil 2: BetonschornsteineThis European Standard was approved by CEN on 26 April 2007.CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this EuropeanStandard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such nationalstandards may be obtained on application to the CEN Management Centre or to any CEN member.This European Standard exists in three official versions (English, French, German). A version in any other language made by translationunder the responsibility of a CEN member into its own language and notified to the CEN Management Centre has the same status as theofficial versions.CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland,France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMITÉ EUROPÉEN DE NORMALISATIONEUROPÄISCHES KOMITEE FÜR NORMUNGManagement Centre: rue de Stassart, 36
B-1050 Brussels© 2007 CENAll rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 13084-2:2007: ESIST EN 13084-2:2007



EN 13084-2:2007 (E) 2 Contents page Foreword.4 1 Scope.5 2 Normative references.5 3 Terms and definitions.5 4 Materials.6 4.1 Concrete.6 4.1.1 Normal-weight concrete for cast-in-situ chimneys.6 4.1.2 Concrete for prefabricated chimneys.6 4.2 Mortar for bedding of prefabricated elements.6 4.3 Reinforcing steel.6 5 Material properties.7 6 Structural design.8 6.1 Actions.8 6.2 Effect of actions.8 6.2.1 General.8 6.2.2 Partial safety factors.8 6.2.3 Moments of 2nd order.9 6.2.4 Superposition of effects from thermal and other actions.11 6.3 Verification.11 6.3.1 General.11 6.3.2 Ultimate limit state.11 6.3.3 Serviceability limit state.14 7 Detailing provisions.15 7.1 Cast-in-situ chimneys.15 7.1.1 Minimum vertical reinforcement.15 7.1.2 Minimum horizontal reinforcement.15 7.1.3 Minimum reinforcement around openings.15 7.1.4 Distance between bars.16 7.1.5 Minimum concrete cover.16 7.1.6 Minimum wall thickness.16 7.1.7 Splices.16 7.2 Prefabricated concrete chimneys.16 7.2.1 Minimum reinforcement for transportation of prefabricated elements.16 7.2.2 Minimum horizontal reinforcement.16 7.2.3 Minimum concrete cover.16 SIST EN 13084-2:2007



EN 13084-2:2007 (E) 3 7.2.4 Minimum wall thickness.17 7.2.5 Vertical continuous bundles of bars.17 7.2.6 Openings.18 8 Workmanship.19 8.1 General.19 8.2 Bedding joints.19 8.3 Reinforcement ducts.19 9 Quality control.19 9.1 Cast-in-situ chimneys.19 9.2 Prefabricated chimneys.19 Annex A (normative)
Analysis of stresses due to thermal and other actions.20 A.1 Moment-curvature-relation.20 A.2 Calculation procedure.23 Annex B (normative)
Limitations of crack widths.25
SIST EN 13084-2:2007



EN 13084-2:2007 (E) 4 Foreword This document (EN 13084-2:2007) has been prepared by Technical Committee CEN/TC 297 “Free-standing industrial chimneys”, the secretariat of which is held by DIN. This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by November 2007, and conflicting national standards shall be withdrawn at the latest by November 2007. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights. This document supersedes EN 13084-2:2001. This European Standard is part 2 of a series of standards as listed below:  EN 13084-1, Free-standing chimneys - Part 1: General requirements.  EN 13084-2, Free-standing chimneys - Part 2: Concrete chimneys.  EN 13084-4, Free-standing chimneys - Part 4: Brick liners – Design and execution.  EN 13084-5, Free-standing chimneys - Part 5: Material for brick liners - Product specifications.  EN 13084-6, Free-standing chimneys - Part 6: Steel liners - Design and execution.  EN 13084-7, Free-standing chimneys – Part 7: Product specifications of cylindrical steel fabrications for use in single wall steel chimneys and steel liners.  EN 13084-8, Free-standing chimneys – Part 8: Design and execution of mast construction with satellite components Additionally applies  EN 1993-3-2, Eurocode 3: Design of steel structures – Part 3-2: Towers, masts and chimneys – Chimneys. According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom. SIST EN 13084-2:2007



EN 13084-2:2007 (E) 5
1 Scope This European Standard specifies particular requirements and performance criteria for the design and construction of cast-in-situ concrete chimneys as well as prefabricated concrete chimneys. It identifies requirements to ensure the mechanical resistance and stability of concrete chimneys in accordance with the general requirements given in EN 13084-1. As for chimneys attached to buildings the criteria given in Clause 1 of EN 13084-1:2000 apply. Unless otherwise stated in the following clauses the basic standard for the design of concrete structures, EN 1992-1-1, applies. 2 Normative references The following referenced documents are indispensable for the application of this European Standard. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 206-1:2000, Concrete – Part 1: Specification, performance, production and conformity EN 1520:2002, Prefabricated reinforced components of lightweight aggregate concrete with open structure EN 1990, Eurocode - Basis of structural design EN 1992-1-1:2004, Eurocode 2: Design of concrete structures - Part 1-1: General rules and rules for buildings EN 1992-1-2, Eurocode 2: Design of concrete structures – Part 1-2: General rules - Structural fire design EN 12446, Chimneys - Components - Concrete outer wall elements EN 13084-1:2000, Free-standing chimneys - Part 1: General requirements EN 13084-4, Free standing chimneys – Part 4: Brick liners – Design and execution 3 Terms and definitions For the purposes of this document, the terms and definitions given in EN 13084-1:2000 and the following apply. 3.1 prefabricated element precast member of normal-weight or light-weight concrete, reinforced or not, which completely encloses the flues of chimney stacks 3.2 reinforcement ducts route for the continuous vertical reinforcement SIST EN 13084-2:2007



EN 13084-2:2007 (E) 6 4
Materials 4.1 Concrete 4.1.1 Normal-weight concrete for cast-in-situ chimneys
The concrete strength classes given in EN 206-1 but not less than C25/30 can be used for cast-in-situ chimneys. For environmental conditions EN 206-1 applies. NOTE Higher strength classes than C25/30 should only be used if it would be required by environmental conditions in accordance with EN 1992-1-1:2004, Table E.1N and no special provisions for corrosion protection of reinforcement and protection of concrete attack need to be taken.
4.1.2 Concrete for prefabricated chimneys 4.1.2.1 Normal-weight concrete See 4.1.1 4.1.2.2 Light-weight aggregate concrete The light-weight aggregate concrete for prefabricated elements shall correspond to the density-class D 1,2 or higher in accordance with Table 9 of EN 206-1:2000. The light-weight aggregate concrete with closed structure for prefabricated elements shall correspond to the strength classes given in EN 206-1. For environmental conditions EN 206-1 applies. NOTE Higher strength classes than LC25/28 should only be used if it would be required by environmental conditions in accordance with EN 1992-1-1:2004, Table E.1N and no special provisions for corrosion protection of reinforcement and protection of concrete attack need to be taken.
The light-weight aggregate concrete with open structure for prefabricated elements shall correspond to the strength classes given in EN 1520 but strength classes less than LAC 8 shall not be used. For environmental conditions see EN 1520: 2002, 5.8.2. 4.1.2.3 Reinforcement duct infill concrete The reinforcement duct infill concrete shall have at least the same strength class as the prefabricated elements, but not more than the next higher strength class. The flow class for consistence shall not be less than F3 in accordance with Table 6 of EN 206-1:2000 and the maximum size of aggregate shall not be greater than 8 mm. 4.1.2.4 Outer wall elements Prefabricated outer wall elements shall be in accordance with EN 12446. 4.2 Mortar for bedding of prefabricated elements The mortar of bedding joints between prefabricated elements shall have the same strength class as the concrete of the prefabricated elements. 4.3 Reinforcing steel For reinforcing steel the specifications given in EN 1992-1-1 apply. SIST EN 13084-2:2007



EN 13084-2:2007 (E) 7
5 Material properties
The material properties of concrete and reinforcing steel for normal temperature design shall be taken from EN 1992-1-1 or EN 1520 with the exception of the mean tensile strength of concrete, fctm, which shall be calculated in accordance with Equation (1). The influence of elevated temperatures on the mechanical and thermal properties of concrete and reinforcing steel shall be determined from EN 1992-1-2.
fctm = cc x cβ x cv x cη
fcm 0,67
, in N/mm2 (1) where:
cc is the concrete density factor;
cc = 0,4 + 0,62200 (1a)
cβ is the concrete strength factor;
cβ = 0,45 (1b)
cv is the predamage factor;
cv = 0,85 - 0,2 x t (1c)
cη is the eccentricity factor;
ηη×××6 + 1,06 + 0,6 = tcc (1d)
ct is the wall thickness factor;
ttc×+×+=400,16,224t (1e)
fcm is the mean compressive strength of concrete;
fcm
=
fck + 8
in Newtons per square millimetres (1f)
fck is the characteristic compressive strength (cylinders) of concrete in Newtons per square millimetres; ρ is the density of concrete;
for normal-weight concrete:
ρ = 2200 kg/m3
for light-weight concrete:
ρ
is the design value of the density of concrete corresponding to the density class in accordance with Table 11.1 of EN 1992-1-1:2004,
η is the eccentricity; SIST EN 13084-2:2007



EN 13084-2:2007 (E) 8
t N = M×η (1g)
M is the design value of the bending moment in the cross-section concerned in Newton metres;
N is the design value of the axial force in the cross-section concerned in Newtons;
t is the wall thickness of the cross-section concerned in metres; For lightweight-aggregate concrete the symbols fctm, fcm and fck shall be replaced by flctm, flcm and flck respectively. 6 Structural design 6.1 Actions Actions to be considered are given in EN 13084-1. For design values of actions and combination of actions see EN 1990. 6.2 Effect of actions 6.2.1 General The effect of actions in both horizontal and vertical cross-sections have to be calculated taking into account moments of 2nd order. The windshield can be treated in accordance with the beam theory being subjected to axial forces, bending moments and thermal effects. If effects on the stability are expected, the influences from creep, shrinkage and cracking shall be taken into account. 6.2.2 Partial safety factors Partial safety factors for actions shall be applied. NOTE The values of the partial safety factors for actions in the ultimate limit state for use in a Country may be found in its National Annex. The recommended partial safety factors for actions are: a) permanent actions  unfavourable effect γG
= 1,35  favourable effect γG
= 1,0 b) wind actions γW
= 1,5 c) thermal effects γT
= 1,5 d) seismic actions γE
= 1,0 SIST EN 13084-2:2007



EN 13084-2:2007 (E) 9
6.2.3 Moments of 2nd order 6.2.3.1 General For the determination of moments of 2nd order the mean values of the material properties may be used. In the concrete compression zone, the following linear material law has to be used:
εσ E = ×cm (2) where:
σ is the stress;
Ecm is the modulus of elasticity of concrete;
ε is the strain. The stiffening effect of the concrete in the tension zone may be taken into account in chimneys with continuous vertical reinforcement. 6.2.3.2 Approximate method The approximation is based on the following assumptions:  full utilization of the cross-sections with respect to the local load carrying capacity;  consideration of the tension stiffening effects of the concrete;  chimney height less than 300 m;  no consideration of deflection effects due to imperfections and rotation of the foundation;  constant diameter and wall thickness or nearly linear reduction of one or both of them over the chimney height. The design value of the 2nd order moment may be calculated as follows:  for windshields with continuous vertical reinforcement:
2,412,4 + 1100)0,14 - (85(0) )()(×××××hz -
hz
hM + z M = z Mα2IIII (3)  for windshields without continuous vertical reinforcement with the value of α according to Equation (5) not exceeding 0,6:
)) + 1(z Mz M(( = )I2II××ακ (4) where:
MII (z) is the design value of the 2nd order bending moment at height z;
MI (0) is the design value of the 1st order bending moment at the chimney base;
MI (z) is the design value of the 1st order bending moment at height z; SIST EN 13084-2:2007



EN 13084-2:2007 (E) 10
z is the height at the considered cross-section above the top level of the foundation;
h is the height of chimney above the top level of the foundation;
IENh = ×cmα (5)
κ
=0,5, if the horizontal joints do not open deeper than the centre of gravity;
κ
= 0,75, if the horizontal joints open deeper than the centre of gravity;
N
is the design value of the axial force at the chimney base;
Ecm is the modulus of elasticity of concrete; l is the 2nd moment of area at the chimney base of the uncracked cross-section ignoring reinforcement;
83mt××=dIπ (5a)
dm is the mean windshield diameter at the chimney base;
t is the wall thickness at the chimney base. 6.2.3.3 Rotation of foundation Rotation of the foundation causes moments of 2nd order in the windshield. For the determination of the angle of rotation θ, Equations (6) or (7) apply:  for a circular raft foundation if there is no uplift
()()3II1 0,54
REv -M2××=soilθ (6)  for a foundation on end bearing piles
∑×=p2pIIkxMp βθ (7) where:
MII is the design value of the 2nd order bending moment acting on the foundation referred to underside of the foundation;
R is the radius of the circular raft foundation;
Esoil is the modulus of elasticity of the soil;
ν is the Poisson's ratio; ν = 0,5;
βp
is the factor for pile interference in a grid; SIST EN 13084-2:2007



EN 13084-2:2007 (E) 11
×p 6 + 11 = sdppβ (7a)
xp is the distance of a pile to the axis of rotation;
kp is the spring constant of an end bearing pile; dp is the pile diameter;
sp is the minimum spacing between the piles. 6.2.4 Superposition of effects from thermal and other actions The superposition of thermal stresses and stresses from other actions is particularly difficult due to the highly non-linear behaviour of the material. A calculation method to determine the bending moments and reinforcement due to temperature differences between inner and outer surface of the concrete wall superposed by other actions is given in Annex A. The influence of sun exposure on the effects of actions need not be taken into account. The calc
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