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Building acoustics - Estimation of acoustic performance of building from the performance of elements - Part 5: Sounds levels due to service equipment

This document describes calculation models to estimate the sound pressure level in buildings due to service equipment. As for the field measurement document (EN ISO 16032) it covers sanitary installations, mechanical ventilation, heating and cooling, service equipment, lifts, rubbish chutes, boilers, blowers, pumps and other auxiliary service equipment, and motor driven car park doors, but can also be applied to others equipment attached to or installed in buildings. The estimation is primarily based on measured data that characterizes both the sources and the building constructions. The models given are applicable to calculations in frequency bands. This document describes the principles of the calculation models, lists the relevant quantities and defines its applications and restrictions. It is intended for acoustical experts and provides the framework for the development of application documents and tools for other users in the field of building construction, taking into account local circumstances. The calculation models described use the most general approach for engineering purposes, with a link to measurable quantities that specify the performance of building elements and equipment. The known limitations of these calculation models are described in this document. Users should, however, be aware that other calculation models also exist, each with their own applicability and restrictions. The models are based on experience with predictions for dwellings and offices; they could also be used for other types of buildings provided the dimensions of constructions are not too different from those in dwellings.

Bauakustik - Berechnung der akustischen Eigenschaften von Gebäuden aus den Bauteileigenschaften - Teil 5: Installationsgeräusche

Dieses Dokument beschreibt Berechnungsmodelle für die durch haustechnische Anlagen in Gebäuden erzeugten Schalldruckpegel. Wie in dem Dokument zur Vor Ort Messung der Schallpegel (EN ISO 16032) werden Sanitärinstallationen, mechanische Lüftungssysteme, Heizung und Kühlung, haustechnische Anlagen, Aufzüge, Müllrutschen, Heizkessel, Gebläse, Pumpen und anderes Zubehör zu haustechnischen Anlagen sowie Garagentüren mit Motorantrieb erfasst, das Dokument kann aber auch auf andere Ausrüstungs¬gegenstände angewendet werden, die in Gebäuden angebracht oder installiert sind. Die Berechnung basiert vorrangig auf Messdaten, die sowohl die Schallquellen als auch die Gebäudekonstruktionen kennzeichnen. Die angegebenen Modelle sind für Berechnungen in Frequenzbändern anwendbar.
Das vorliegende Dokument beschreibt die Grundlagen der Berechnungsmodelle, führt die entsprechenden Größen auf und legt ihre Anwendung sowie geltende Einschränkungen fest. Das Dokument bietet Akustik Fachleuten einen Rahmen zur Erstellung von Dokumenten und Hilfsmitteln, die von anderen Anwendern im Bereich Bauausführung unter Berücksichtigung der örtlichen Gegebenheiten genutzt werden.
Die Berechnungsmodelle beschreiben die Anwendung der für technische Zwecke gebräuchlichsten Methode unter Verweis auf messbare Größen, die der Festlegung der Eigenschaften von Bauteilen und Ausrüstungs¬gegenständen dienen. In diesem Dokument werden auch die bekannten Grenzen dieser Berechnungsmodelle angegeben. Die Anwender sollten jedoch bedenken, dass es auch andere Berechnungsmodelle gibt, von denen jedes für bestimmte Bereiche gut und für andere Bereiche nur eingeschränkt anwendbar ist.
Die Modelle berufen sich auf die Erfahrungen, die bei Voraussagen für Wohnungen und Büroräume gewonnen wurden; sie können auf andere Gebäudearten unter der Voraussetzung übertragen werden, dass die Maße dieser Gebäude nicht wesentlich von den Maßen der Wohnungen abweichen.

Acoustique du bâtiment - Calcul de la performance acoustique des bâtiments a partir de la performance des éléments - Partie 5: Niveaux sonores dus aux équipements du bâtiment

Le présent document décrit des modèles de calcul pour estimer le niveau de pression acoustique dans les bâtiments dû aux équipements techniques. Comme le document de mesurage sur site (EN ISO 16032), il couvre les installations sanitaires, la ventilation mécanique, le chauffage et le refroidissement, les équipements techniques, les ascenseurs, les vide-ordures, les chaudières, les appareils soufflants, les pompes et autres équipements techniques auxiliaires et les portes de garage motorisées. Il peut aussi s’appliquer à d’autres équipements fixés aux bâtiments ou installés dans ceux-ci. L’estimation est principalement basée sur des données mesurées qui caractérisent les sources et les structures des bâtiments. Les modèles présentés sont applicables à un calcul par bandes de fréquences.
Le présent document décrit les principes des modèles de calcul, énumère les grandeurs significatives et définit les applications et les limites de ces modèles. Il est destiné aux experts en acoustique et fournit un cadre de développement de documents applicatifs et d’outils destinés à d’autres utilisateurs dans le domaine du bâtiment, tenant compte de conditions locales.
Les modèles de calcul décrits utilisent l’approche la plus générale pour les besoins d’ingénierie avec un lien avec des grandeurs mesurables spécifiant les performances des éléments et équipements du bâtiment. Les limitations connues de ces modèles de calcul sont décrites dans la présente norme. Il convient de savoir, toutefois, qu’il existe également d’autres modèles de calcul, chacun ayant sa propre applicabilité et ses propres restrictions.
Ces modèles s’appuient sur l’expérience en prédiction pour des bâtiments d’habitation et des bureaux ; ils peuvent aussi être utilisés pour d’autres types de bâtiments, dans la mesure où les dimensions constructives sont similaires à celles des habitations.

Akustika v stavbah - Ocenjevanje akustičnih lastnosti stavb iz lastnosti sestavnih delov - 5. del: Zvočne ravni obratovalne opreme

Ta dokument opisuje računske modele za izračun ravni zvočnega tlaka v stavbah zaradi obratovalne opreme. Kot dokument, ki obravnava meritve na terenu (EN 16032), se nanaša na sanitarne inštalacije, mehansko prezračevanje, ogrevanje in hlajenje, obratovalno opremo, dvigala, jaške za smeti, kotle, ventilatorje, črpalke in drugo pomožno obratovalno opremo ter parkirna vrata na mehaniziran pogon za avtomobile, vendar se lahko uporablja tudi za drugo pritrjeno ali vgrajeno opremo v stavbi. Računanje temelji predvsem na merskih podatkih, ki so značilni tako za vir hrupa kot za konstrukcijo stavbe. Opisani modeli so uporabni za računanje po frekvenčnih pasovih. Ta dokument opisuje načela računskih modelov, navaja relevantne veličine in opredeljuje njihovo uporabnost in omejitve. Namenjen je akustičnim strokovnjakom in daje, upoštevajoč lokalne okoliščine, okvir za razvoj uporabnih dokumentov in orodij za druge uporabnike na področju graditve objektov.
Opisani računski modeli uporabljajo najsplošnejši pristop za inženirske namene s povezavami z merilnimi veličinami, ki specificirajo lastnosti gradbenih elementov in opreme. V tem dokumentu so opisane znane omejitve teh računskih modelov. Vendar naj se uporabniki zavedajo, da obstajajo tudi drugi računski modeli, vsak z lastno uporabnostjo in omejitvami. Modeli temeljijo na izkušnjah za napovedovanje za bivalne prostore in za urade; lahko se uporabljajo tudi za druge vrste stavb, če so gradbene dimenzije podobne tistim za stanovanja.

General Information

Status

Withdrawn

Public Enquiry End Date

19-Aug-2007

Publication Date

31-May-2009

Withdrawal Date

15-Aug-2023

ICS

91.120.20 - Acoustics in building. Sound insulation

Technical Committee

AKU - Acoustics

Current Stage

9900 - Withdrawal (Adopted Project)

Start Date

06-Jul-2023

Due Date

29-Jul-2023

Completion Date

16-Aug-2023

Directive

TP099 - Pravilnik o zaščiti pred hrupom v stavbah

Ref Project

EN 12354-5:2009 - Building acoustics - Estimation of acoustic performance of building from the performance of elements - Part 5: Sounds levels due to the service equipment

Relations

Replaced By

SIST EN 12354-5:2023 - Building acoustics - Estimation of acoustic performance of buildings from the performance of elements - Part 5: Sounds levels due to the service equipment

Effective Date

01-Sep-2023

Corrected By

SIST EN 12354-5:2009/AC:2011 - Building acoustics - Estimation of acoustic performance of building from the performance of elements - Part 5: Sounds levels due to the service equipment

Effective Date

01-Mar-2011

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Standards Content (Sample)

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Bauakustik - Berechnung der akustischen Eigenschaften von Gebäuden aus Bauteileigenschaften - Teil 5: Schallpegel von haustechnischen AnlagenAcoustique du bâtiment - Calcul de la performance acoustique des bâtiments a partir de la performance des éléments - Partie 5: Niveaux sonores dus aux équipements du bâtimentBuilding acoustics - Estimation of acoustic performance of building from the performance of elements - Part 5: Sounds levels due to service equipment91.120.20L]RODFLMDAcoustics in building. Sound insulationICS:Ta slovenski standard je istoveten z:EN 12354-5:2009SIST EN 12354-5:2009en01-julij-2009SIST EN 12354-5:2009SLOVENSKI
STANDARD

SIST EN 12354-5:2009

EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN 12354-5April 2009ICS 91.120.20 English VersionBuilding acoustics - Estimation of acoustic performance ofbuilding from the performance of elements - Part 5: Soundslevels due to the service equipmentAcoustique du bâtiment - Calcul des performancesacoustiques des bâtiments à partir des performances deséléments - Partie 5 : Niveaux sonores dûs aux équipementsde bâtimentBauakustik - Berechnung der akustischen Eigenschaftenvon Gebäuden aus den Bauteileigenschaften - Teil 5:InstallationsgeräuscheThis European Standard was approved by CEN on 5 March 2009.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:
Avenue Marnix 17,
B-1000 Brussels© 2009 CENAll rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 12354-5:2009: ESIST EN 12354-5:2009

EN 12354-5:2009 (E) 2 Contents Page Foreword .4 Introduction .5 1 Scope .6 2 Normative references .6 3 Relevant quantities .7 3.1 Quantities to express building performance .7 3.2 Quantities to express product performance .9 4 Calculation models .9 4.1 General principles.9 4.2 Airborne sound transmission through pipes and ducts . 10 4.2.1 General . 10 4.2.2 Sources . 13 4.2.3 Transmission . 15 4.3 Airborne sound transmission through building construction . 17 4.3.1 General . 17 4.3.2 Sources . 18 4.3.3 Transmission in a source room . 18 4.3.4 Transmission through a building . 19 4.4 Structure-borne transmission through building construction . 19 4.4.1 General . 19 4.4.2 Sources . 21 4.4.3 Transmission through the mounting . 21 4.4.4 Transmission through the building . 22 5 Application of models . 23 5.1 Application to ventilation systems . 23 5.1.1 General . 23 5.1.2 Guidelines for the application . 24 5.2 Application to heating installations . 25 5.2.1 General . 25 5.2.2 Guidelines . 26 5.3 Application to lift installations . 26 5.3.1 General . 26 5.3.2 Guidelines . 26 5.4 Application to water supply installations . 27 5.4.1 General . 27 5.4.2 Guidelines . 30 5.5 Application to waste water installations . 32 5.5.1 General . 32 5.5.2 Guidelines for the application . 33 5.6 Application to miscellaneous service equipment . 33 5.6.1 General . 33 5.6.2 Guidelines . 33 6 Accuracy . 34 Annex A (normative)
List of symbols . 35 Annex B (informative)
Airborne sound sources in duct systems . 38 B.1 Sound power level of fans . 38 B.2 Sound power level of flow-generated sound . 38 SIST EN 12354-5:2009

EN 12354-5:2009 (E) 3 Annex C (informative)
Airborne sound sources . 39 C.1 Sound sources . 39 C.1.1 Service equipment, such as whirlpool baths . 39 C.1.2 Waste water appliances . 39 C.1.3 Heating systems . 39 C.2 Sound transmission in source room . 39 Annex D (informative)
Structure-borne sound sources . 41 D.1 Measurement of characteristic structure-borne sound power level . 41 D.1.1 General . 41 D.1.2 Service equipment with high source mobility . 42 D.1.3 Service equipment with known source mobility . 46 D.1.4 Service equipment with low source mobility. 47 D.2 Mounting with elastic supports . 48 D.3 Estimation of data on source strength, elastic supports and source mobilities. 49 Annex E (informative)
Sound transmission through elements of duct and pipe systems . 50 E.1 Introduction . 50 E.2 Duct wall . 50 E.3 Along straight, unlined duct . 51 E.4 Along straight, lined duct / silencer . 51 E.5 Area changes . 52 E.6 Branches . 52 E.7 Air terminal devices and openings . 52 E.8 Radiation by openings . 53 Annex F (informative)
Sound transmission in buildings . 55 F.1 Transmission through junctions . 55 F.2 Adjustment term . 56 F.3 Mobility of supporting building elements . 57 F.3.1 Essentially homogeneous elements . 57 F.3.2 Elements with beams . 57 F.3.3 Excitation near borders and corner . 58 F.4 Measurement of total transmission . 58 F.4.1 Airborne sound transmission . 58 F.4.2 Structure-borne sound transmission . 59 Annex G (informative)
Sound levels at low frequencies . 61 Annex H (informative)
Guidance for the design of service equipment systems . 63 H.1 General . 63 H.2 Choice of equipment . 63 H.3 Location of a service equipment room and air-handling unit . 63 H.4 Airborne sound insulation of service equipment room . 64 H.5 Structure borne sound and vibration insulation . 64 H.5.1 Heavy structure . 64 H.5.2 Lightweight structure . 64 H.6 Pipes and ductwork . 65 Annex I (informative)
Calculation examples . 66 I.1 Example for a ventilation system . 66 I.2 Example for a whirlpool bath . 68 I.3 Example for a sanitary system . 71 Bibliography . 73
SIST EN 12354-5:2009

EN 12354-5:2009 (E) 4 Foreword This document (EN 12354-5:2009) has been prepared by Technical Committee CEN/TC 126 “Acoustic properties of building elements and of buildings”, the secretariat of which is held by AFNOR. 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 October 2009, and conflicting national standards shall be withdrawn at the latest by October 2009. 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 is the first version of a standard, which forms a part of a series of standards specifying calculation models in building acoustics:  Part 1: Building Acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 1: Airborne sound insulation between rooms.  Part 2: Building Acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 2: Impact sound insulation between rooms.  Part 3: Building Acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 3: Airborne sound insulation against outdoor sound.  Part 4: Building Acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 4: Transmission of indoor sound to the outside.  Part 5: Building Acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 5: Sound levels due to the service equipment.  Part 6: Building Acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 6: Sound absorption in enclosed spaces. Although this part covers the most common types of service equipment and installations in buildings, it cannot as yet cover all types and all situations. It sets out an approach for gaining experience for future improvements and developments. The accuracy of this standard can only be specified in detail after widespread comparisons with field data, which can only be gathered over a period of time after establishing the prediction model. To help the user in the mean time, indications of the accuracy have been given, based on earlier comparisons with comparable prediction models. It is the responsibility of the user (i.e. a person, an organisation, the authorities) to address the consequences of the accuracy, inherent for all measurement and prediction methods, by specifying requirements for the input data and/or applying a safety margin to the results or applying some other correction. Annex A forms an integral part of this part of EN 12354. Annexes B, C, D, E, F, G and H are for information only. 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 the United Kingdom. SIST EN 12354-5:2009

EN 12354-5:2009 (E) 5 Introduction The estimation of sound levels due to service equipment in buildings is a complex task and structure-borne sources and transmission are not completely understood. In addition there are large variations between different equipment and installations and an installation often results in both airborne and structure-borne sources. This document contains a framework within which this subject can be treated. The main part (Clause 4) describes general models for sound transmission and related sources for ducts, airborne sound through buildings and structure-borne sound through buildings. For airborne and structure-borne sound transmission, parts 1 and 2 of EN 12354 are used wherever possible. In Clause 5 the application of these models to the different types of service equipment in buildings is addressed, specifying what is already known and available and what is not. Informative annexes give additional information on various aspects, related to sources and their sound production as well as to specific aspects of sound transmission through buildings. Wherever possible references are made to available handbooks, literature or ongoing standardization work. Over the course of time some annexes or parts of them, especially those relating to the sound production by sources, can be deleted when appropriate standards become available. For sound transmission through ducts there are standardized methods available to determine the sound power level of sources or the transmission loss of elements. Various handbooks are widely used for these estimations. For airborne sound transmission through buildings information exists about sources and transmission, but some aspects that are particularly relevant to service equipment are less well known, such as the effect of acoustic near-fields, non-diffuse spaces and excitation and transmission at low frequencies. For these aspects some indications are given as to how they could be treated and also as an indicator for the direction of further research and future improvements to the models. For structure-borne sound transmission similar solutions and problems exist as used for airborne sound. However, here the appropriate methods to characterize the sources for structure-borne sound excitation are just starting to become available, largely due to standardization work started within CEN (TC126/WG7) Therefore in this document a choice has been made to use a general quantity in the models, called "the characteristic structure-borne sound power level" of sources, even though there is no practical measurement method available at the moment. This allows the estimation models to have a general form that could be developed and refined in the future. For some types of equipment indications are given in an informative annex as to how this quantity can be deduced or estimated from available and current measurement methods, such as the ones already developed within CEN. The aim of this document is to provide a general basis for a practical approach to the estimation of sound levels due to service equipment. It also clarifies the need for work on source characterisation with an indication of areas where further research work is needed. SIST EN 12354-5:2009

EN 12354-5:2009 (E) 6 1 Scope This document describes calculation models to estimate the sound pressure level in buildings due to service equipment. As for the field measurement document (EN ISO 16032) it covers sanitary installations, mechanical ventilation, heating and cooling, service equipment, lifts, rubbish chutes, boilers, blowers, pumps and other auxiliary service equipment, and motor driven car park doors, but can also be applied to others equipment attached to or installed in buildings. The estimation is primarily based on measured data that characterises both the sources and the building constructions. The models given are applicable to calculations in frequency bands. This document describes the principles of the calculation models, lists the relevant quantities and defines its applications and restrictions. It is intended for acoustical experts and provides the framework for the development of application documents and tools for other users in the field of building construction, taking into account local circumstances. The calculation models described use the most general approach for engineering purposes, with a link to measurable quantities that specify the performance of building elements and equipment. The known limitations of these calculation models are described in this document. Users should, however, be aware that other calculation models also exist, each with their own applicability and restrictions. The models are based on experience with predictions for dwellings and offices; they could also be used for other types of buildings provided the constructional dimensions are similar to those in dwellings. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 12354-1:2000, Building acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 1: Airborne sound insulation between rooms EN 12354-2, Building acoustics  Estimation of acoustic performance of buildings from the performance of elements  Part 2: Impact sound insulation between rooms EN 13141-1, Ventilation for buildings  Performance testing of components/products for residential ventilation  Part 1: Externally and internally mounted air transfer devices EN 13141-2, Ventilation for buildings  Performance testing of components/products for residential ventilation  Part 2: Exhaust and supply air terminal devices EN ISO 3740, Acoustics  Determination of sound power levels of noise sources  Guidelines for the use of basic standards (ISO 3740:2000) EN ISO 3741, Acoustics  Determination of sound power levels of noise sources using sound pressure  Precision methods for reverberation rooms (ISO 3741:1999) EN ISO 3743 (all parts), Acoustics  Determination of sound power levels of noise sources  Engineering methods for small, movable sources in reverberant fields (ISO 3743-1:1995 and ISO 3743-2:1996) EN ISO 3744, Acoustics  Determination of sound power levels of noise sources using sound pressure  Engineering method in an essentially free field over a reflecting plane (ISO 3744:1994) EN ISO 3745, Acoustics  Determination of sound power levels of noise sources using sound pressure  Precision methods for anechoic and semi-anechoic rooms (ISO 3745:2003) SIST EN 12354-5:2009

EN 12354-5:2009 (E) 7 EN ISO 3746, Acoustics  Determination of sound power levels of noise sources using sound pressure  Survey method using an enveloping measurement surface over a reflecting plane (ISO 3746:1995) EN ISO 3747, Acoustics  Determination of sound power levels of noise sources using sound pressure  Comparison method for use in situ (ISO 3747:2000) EN ISO 3822-1, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water supply installations  Part 1: Method of measurement (ISO 3822-1:1999) EN ISO 3822-2, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water supply installations  Part 2: Mounting and operating conditions for draw-off taps and mixing valves (ISO 3822-2:1995) EN ISO 3822-3, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water supply installations  Part 3: Mounting and operating conditions for in-line valves and appliances EN ISO 3822-4, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water supply installations  Part 4: Mounting and operating conditions for special appliances EN ISO 7235, Acoustics  Laboratory measurement procedure for ducted silencers and air-terminal units  Insertion loss, flow noise and total pressure loss (ISO 7235:2003) EN ISO 10846-1, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of resilient elements  Part 1: Principles and guidelines (ISO 10846-1:2008) EN ISO 10846-2, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of resilient elements  Part 2: Direct method for determination of the dynamic stiffness of resilient supports for translatory motion (ISO 10846-2:2008) EN ISO 10846-3, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of resilient elements  Part 3: Indirect method for determination of the dynamic stiffness of resilient supports for translatory motion (ISO 10846-3:2002) EN ISO 10846-4, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of resilient elements  Part 4: Dynamic stiffness of elements other than resilient supports for translatory motion (ISO 10846-4:2003) EN ISO 11691, Acoustics  Measurement of insertion loss of ducted silencers without flow  Laboratory survey method (ISO 11691:1995) 3 Relevant quantities 3.1 Quantities to express building performance The protection against sound from equipment and machinery according to EN ISO 16032 can be expressed in sound pressure levels in various ways. These quantities are determined in octave bands as maximum level using time weighting "S" or time weighting "F" or as equivalent level; in all cases normalization to a reference equivalent absorption area or standardization to a reference reverberation time can be applied. The building performance is normally expressed in an A-weighted or C-weighted sound pressure level that is to be calculated from these octave band levels. NOTE The octave band levels are also used to determine the so-called NC, NR or RC ratings, as described in many textbooks. This is especially the case for buildings such as off
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SLOVENSKI SIST EN 12354-5

STANDARD
julij 2009

Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti
sestavnih delov – 5. del: Zvočne ravni obratovalne opreme

Building acoustics – Estimation of acoustic performance of building from the
performance of elements – Part 5: Sounds levels due to the service equipment

Acoustique du bâtiment – Calcul des performances acoustiques des bâtiments à
partir des performances des éléments – Partie 5: Niveaux sonores dûs aux
équipements de bâtiment

Bauakustik – Berechnung der akustischen Eigenschaften von Gebäuden aus den
Bauteileigenschaften – Teil 5: Installationsgeräusche

Referenčna oznaka

ICS 91.120.20 SIST EN 12354-5:2009 (sl)

Nadaljevanje na straneh II in III in od 1 do 67

© 2011-04 Standard je založil in izdal Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------

SIST EN 12354-5 : 2009
NACIONALNI UVOD
Standard SIST EN 12354-5 (sl), Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz
lastnosti sestavnih delov – 5. del: Zvočne ravni obratovalne opreme (EN 12354-5:2009), 2009, ima
status slovenskega standarda in je enakovreden evropskemu standardu EN 12354-5 (en; de; fr),
Building acoustics – Estimation of acoustic performance of building from the performance of elements
– Part 5: Sounds levels due to the service equipment, 2009.
NACIONALNI PREDGOVOR
Evropski standard EN 12354-5 je pripravil tehnični odbor Evropskega komiteja za standardizacijo
CEN/TC 126, Akustične lastnosti gradbenih proizvodov in stavb. Slovenski standard SIST EN 12354-
5:2009 je prevod evropskega standarda EN 12354-5:2009. V primeru spora glede besedila
slovenskega prevoda v tem standardu je odločilen izvirni evropski standard. Slovensko izdajo
standarda je pripravil tehnični odbor SIST/TC AKU Akustika.
Odločitev za izdajo tega standarda je dne 21. maja 2009 sprejel SIST/TC AKU Akustika.
ZVEZA S STANDARDI
S privzemom tega evropskega standarda veljajo za omenjeni namen referenčnih standardov vsi
standardi, navedeni v izvirniku, razen tistih, ki so že sprejeti v nacionalno standardizacijo:
SIST EN 12354-1 Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti
sestavnih delov – 1. del: Izolirnost pred zvokom v zraku med prostori
SIST EN 12354-2 Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti
sestavnih delov – 2. del: Izolirnost pred udarnim zvokom med prostori
SIST EN 13141-1 Prezračevanje stavb – Preskušanje lastnosti stanovanjskih prezračevalnih
komponent/izdelkov – 1. del: Zunanje in notranje vgrajeni zračni prenosniki
SIST EN 13141-2 Prezračevanje stavb – Preskušanje lastnosti stanovanjskih prezračevalnih
komponent/izdelkov – 2. del: Odvodne in dovodne zračne naprave
SIST EN ISO 3740 Akustika – Ugotavljanje ravni zvočnih moči virov hrupa – Smernice za
uporabo temeljnih standardov
SIST EN ISO 3741 Akustika – Določanje ravni zvočnih moči in ravni zvočne energije virov hrupa z
zvočnim tlakom – Precizijska metoda za odmevnice (ISO 3741:1999)
SIST EN ISO 3743 Akustika – Ugotavljanje ravni zvočnih moči in ravni zvočne energije virov
(oba dela) hrupa z zvočnim tlakom – Inženirske metode za majhne premične vire v
odmevnih poljih (ISO 3743-1 in ISO 3743-2)
SIST EN ISO 3744 Akustika – Ugotavljanje ravni zvočnih moči virov hrupa z merjenjem
zvočnega tlaka – Inženirska metoda v pretežno prostem polju nad odbojno
ravnino (ISO 3744:1994)
SIST EN ISO 3745 Akustika – Ugotavljanje ravni zvočnih moči virov hrupa – Precizijska metoda
za gluhe in polgluhe prostore (ISO 3745:2003)
SIST EN ISO 3746 Akustika – Določanje ravni zvočnih moči in ravni zvočne energije virov
hrupa z zvočnim tlakom – Informativna metoda z merilno ploskvijo,
sklenjeno okrog vira hrupa nad odbojno ravnino (ISO 3746:1995)
SIST EN ISO 3747 Akustika – Ugotavljanje ravni zvočnih moči in in ravni zvočne energije virov
hrupa z zvočnim tlakom – Inženirska/informativna metoda, uporabna na
kraju samem (in situ) v odmevnem okolju (ISO 3747:2000)
SIST EN ISO 3822-1 Akustika – Laboratorijski preskusi emisije hrupa armatur in naprav pri
inštalacijah za oskrbo z vodo – 1. del: Metode merjenja (ISO 3822-1:1999)
II

---------------------- Page: 2 ----------------------

SIST EN 12354-5 : 2009
SIST EN ISO 3822-2 Akustika – Laboratorijski preskusi emisije hrupa armatur in naprav pri
inštalacijah za oskrbo z vodo – 2. del: Pogoji za priključitev in delovanje
izpustnih armatur in mešalnih ventilov (ISO 3822-2:1995)
SIST EN ISO 3822-3 Akustika – Laboratorijski preskusi emisije hrupa armatur in naprav pri
inštalacijah za oskrbo z vodo – 3. del: Pogoji za priključitev in delovanje
pretočnih armatur
SIST EN ISO 3822-4 Akustika – Laboratorijski preskusi emisije hrupa armatur in naprav pri
inštalacijah za oskrbo z vodo – 4. del: Pogoji za priključitev in delovanje
posebnih armatur
SIST EN ISO 7235 Akustika – Laboratorijski merilni postopki za dušilnike v kanalih in elementih
za dovod in odvod zraka – Dodano dušenje, hrup zaradi pretoka in padec
celotnega tlaka (ISO 7235:2003)
SIST EN ISO 10846-1 Akustika in vibracije – Laboratorijsko merjenje vibro-akustičnih prenosnih
lastnosti elastičnih elementov – 1. del: Načela in smernice (ISO 10846-1:2008)
SIST EN ISO 10846-2 Akustika in vibracije – Laboratorijsko merjenje vibro-akustičnih prenosnih
lastnosti elastičnih elementov – 2. del: Neposredna metoda za določanje
dinamične togosti elastičnih podpor za translatorno gibanje (ISO 10846-
2:2008)
SIST EN ISO 10846-3 Akustika in vibracije – Laboratorijsko merjenje vibro-akustičnih prenosnih
lastnosti elastičnih elementov – 3. del: Posredna metoda za ugotavljanje
dinamične togosti elastičnih podpor za translatorno gibanje (ISO 10846-
3:2002)
SIST EN ISO 10846-4 Akustika in vibracije – Laboratorijsko merjenje vibro-akustičnih prenosnih
lastnosti elastičnih elementov – 4. del: Dinamična togost elementov, razen
elastičnih podpor za translatorno gibanje (ISO 10846-4:2003)
SIST EN ISO 11691 Akustika – Merjenje dodanega dušenja dušilnika zvoka v kanalu brez
pretoka – Laboratorijska informativna metoda (ISO 11691:1995)

OSNOVA ZA IZDAJO STANDARDA
– privzem standarda EN 12354-5:2009
OPOMBE
– Povsod, kjer se v besedilu standarda uporablja izraz “evropski standard”, v
SIST EN 12354-5:2009 to pomeni “slovenski standard”.
– Nacionalni uvod in nacionalni predgovor nista sestavni del standarda.
– Ta nacionalni dokument je istoveten EN 12354-5:2009 in je objavljen z dovoljenjem
CEN
Rue de Stassart, 36
1050 Bruselj
Belgija

– This national document is identical with EN 12354-5:2009 and is published with the permission of
CEN
Rue de Stassart, 36
1050 Bruxelles
Belgium

III

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EVROPSKI STANDARD EN 12354-5
EUROPEAN STANDARD
NORME EUROPÉENNE
EUROPÄISCHE NORM april 2009
ICS 91.120.20

Slovenska izdaja

Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti
sestavnih delov – 5. del: Zvočne ravni obratovalne opreme

Building acoustics – Estimation Acoustique du bâtiment – Calcul des Bauakustik – Berechnung der
of acoustic performance of performances acoustiques des akustischen Eigenschaften von
building from the performance of bâtiments à partir des performances Gebäuden aus den
elements – Part 5: Sounds des éléments – Partie 5: Niveaux Bauteileigenschaften – Teil 5:
levels due to the service sonores dûs aux équipements de Installationsgeräusche
equipment bâtiment

Ta evropski standard je CEN sprejel 5. marca 2009.

Člani CEN morajo izpolnjevati notranje predpise CEN/CENELEC, ki določajo pogoje, pod katerimi
dobi ta standard status nacionalnega standarda brez kakršnihkoli sprememb. Seznami najnovejših
izdaj teh nacionalnih standardov in njihovi bibliografski podatki so na voljo pri Upravnem centru ali
članih CEN.

Ta evropski standard obstaja v treh uradnih izdajah (angleški, francoski in nemški). Izdaje v drugih
jezikih, ki jih člani CEN na lastno odgovornost prevedejo in izdajo ter prijavijo pri Upravnem centru
CEN, veljajo kot uradne izdaje.

Člani CEN so nacionalni organi za standarde Avstrije, Belgije, Bolgarije, Cipra, Češke republike,
Danske, Estonije, Finske, Francije, Grčije, Islandije, Irske, Italije, Latvije, Litve, Luksemburga, Madžarske,
Malte, Nemčije, Nizozemske, Norveške, Poljske, Portugalske, Romunije, Slovaške, Slovenije, Španije,
Švedske, Švice in Združenega kraljestva.

CEN
Evropski komite za standardizacijo
European Committee for Standardisation
Comité Européen de Normalisation
Europäisches Komitee für Normung

Upravni center: Avenue Marnix 17, B-1000 Bruselj

© 2009 Lastnice avtorskih pravic so vse države članice CEN Ref. oznaka EN 12354-5:2009 E

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SIST EN 12354-5 : 2009
VSEBINA Stran

Predgovor .5
Uvod .6
1 Področje uporabe .7
2 Zveza s standardi .7
3 Relevantne veličine .8
3.1 Veličine za izražanje lastnosti stavb.8
3.2 Veličine za izražanje lastnosti proizvodov.10
4 Računske metode.10
4.1 Splošna načela.10
4.2 Prenos zvoka v zraku skozi cevi in kanale.11
4.2.1 Splošno.11
4.2.2 Viri.12
4.2.3 Prenos .14
4.3 Prenos zvoka v zraku skozi konstrukcijo stavbe .15
4.3.1 Splošno.15
4.3.2 Viri.17
4.3.3 Prenos v prostoru z virom .17
4.3.4 Prenos skozi stavbo .18
4.4 Prenos strukturnega zvoka skozi konstrukcijo stavbe.18
4.4.1 Splošno.18
4.4.2 Viri.19
4.4.3 Prenos prek pritrditve .19
4.4.4 Prenos skozi stavbo .20
5 Uporaba modelov .21
5.1 Uporaba pri prezračevalnih sistemih.21
5.1.1 Splošno.21
5.1.2 Smernice za uporabo .22
5.2 Uporaba pri inštalacijah za ogrevanje .23
5.2.1 Splošno.23
5.2.2 Smernice .23
5.3 Uporaba pri inštalacijah dvigal .24
5.3.1 Splošno.24
5.3.2 Smernice .24
5.4 Uporaba pri vodovodnih inštalacijah .24
5.4.1 Splošno.24
5.4.2 Smernice .28
5.5 Uporaba pri inštalacijah za odpadno vodo .30
5.5.1 Splošno.30
5.5.2 Smernice za uporabo .30
2

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SIST EN 12354-5 : 2009
5.6 Uporaba pri različni obratovalni opremi.31
5.6.1 Splošno.31
5.6.2 Smernice .31
6 Točnost.31
Dodatek A (informativni): Seznam simbolov .33
Dodatek B (informativni): Viri zvoka v zraku v sistemih kanalov.35
B.1 Raven zvočne moči ventilatorjev .35
B.2 Ravni zvočne moči zvoka pretoka .35
Dodatek C (informativni): Viri zvoka v zraku .36
C.1 Viri zvoka .36
C.1.1 Obratovalna oprema, kot je masažna kad.36
C.1.2 Naprave za odpadno vodo.36
C.1.3 Sistemi za ogrevanje.36
C.2 Prenos zvoka v prostoru z virom .36
Dodatek D (informativni): Viri strukturnega zvoka.38
D.1 Merjenje karakteristične ravni moči strukturnega zvoka.38
D.1.1 Splošno .38
D.1.2 Obratovalna oprema z veliko admitanco vira .38
D.1.3 Obratovalna oprema z znano admitanco vira.42
D.1.4 Obratovalna oprema z majhno admitanco vira.43
D.2 Pritrditev z elastičnimi podporami.44
D.3 Ocenjevanje podatkov o intenzivnosti vira, elastičnih podpor in admitanc vira.44
Dodatek E (informativni): Prenos zvoka skozi elemente sistema kanalov in cevi.46
E.1 Uvod.46
E.2 Stena kanala .46
E.3 Vzdolž ravnega neobloženega kanala .47
E.4 Vzdolž ravnega obloženega kanala/dušilnika.47
E.5 Spremembe prereza .47
E.6 Razvejanje .47
E.7 Končne naprave in odprtine za prezračevanje .48
E.8 Sevanje odprtin .48
Dodatek F (informativni): Prenos zvoka v stavbah .50
F.1 Prenos skozi spoje .50
F.2 Sklopitveni člen .51
F.3 Admitanca podpornih gradbenih elementov .51
F.3.1 V glavnem homogeni elementi.51
F.3.2 Elementi s tramovi.52
F.3.3 Vzbujanje v bližini robov in kotov .52
F.4 Merjenje celotne prepustnosti .52
F.4.1 Prenos zvoka v zraku.52
F.4.2 Prenos strukturnega zvoka .53
3

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SIST EN 12354-5 : 2009
Dodatek G (informativni): Zvočne ravni pri nizkih frekvencah.55
Dodatek H (informativni): Navodilo za načrtovanje sistemov obratovalne opreme.57
H.1 Splošno .57
H.2 Izbira opreme.57
H.3 Lokacija prostora za naprave in za prezračevano enoto.57
H.4 Izolacija prostora z opremo proti zvoku v zraku .57
H.5 Izolacija pred strukturnim zvokom in vibracijami .58
H.5.1 Težka konstrukcija .58
H.5.2 Lahka konstrukcija .58
H.6 Cevi in sistem kanalov .58
Dodatek I (informativni): Računski primeri .59
I.1 Primer prezračevanega sistema.59
I.2 Primer masažne kadi.61
I.3 Primer sanitarnega sistema.64
Literatura.66
4

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SIST EN 12354-5 : 2009
Predgovor

Ta dokument (EN 12354-5:2009) je pripravil tehnični odbor CEN/TC 126 Akustične lastnosti gradbenih
proizvodov in stavb, katerega sekretariat vodi AFNOR.

Ta evropski standard mora dobiti status nacionalnega standarda bodisi z objavo istovetnega besedila
ali z razglasitvijo najpozneje oktobra 2009, nasprotujoče nacionalne standarde pa je treba razveljaviti
najpozneje oktobra 2009.

Opozoriti je treba na možnost, da so lahko nekateri elementi tega standarda predmet patentnih pravic.
CEN (in/ali CENELEC) ne prevzemata odgovornosti za identifikacijo katerih koli ali vseh takih
patentnih pravic.

Ta standard je prva izdaja standarda, ki ga sestavlja skupina standardov, ki določajo modele
izračunov akustike v stavbah:

– 1. del: Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti sestavnih delov –
1. del: Izolirnost pred zvokom v zraku med prostori
– 2. del: Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti sestavnih delov –
2. del: Izolirnost pred udarnim zvokom med prostori
– 3. del: Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti sestavnih delov –
3. del: Izolirnost pred zvokom v zraku iz zunanjosti
– 4. del: Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti sestavnih delov –
4. del: Prenos zvoka iz notranjosti v okolico
– 5. del: Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti sestavnih delov –
5. del: Zvočne ravni obratovalne opreme
– 6. del: Akustika v stavbah – Ocenjevanje akustičnih lastnosti stavb iz lastnosti sestavnih delov –
6. del: Absorpcija zvoka v zaprtih prostorih

Čeprav ta del zajema najpogostejše vrste obratovalne opreme in namestitve v stavbah, doslej ne
more zajeti vseh vrst in vseh primerov. Določa pot za pridobivanje izkušenj za izboljšave in razvoj v
prihodnje.
Točnost tega standarda se lahko podrobno določi šele s široko primerjavo podatkov s terena, ki se
lahko zberejo šele po daljšem času po uvedbi modela za napovedovanje. V vmesnem času so
uporabnikom v pomoč navedbe o točnosti, ki temeljijo na prejšnjih primerjavah s primerljivimi modeli
za napovedovanje. Odgovornost uporabnika (tj. osebe, organizacije, uradne osebe) je, da opozori na
posledice točnosti, povezane z merilnimi postopki ali metodami napovedovanja, s tem, da določi
zahteve za vhodne podatke in/ali navede varne meje rezultatov ali uporabi nekatere druge popravke.

Dodatek A je sestavni del tega dela EN 12354, dodatki B, C, D, E in F, G in H so le informativni.

Po določilih notranjih predpisov CEN/CENELEC so ta evropski standard dolžne privzeti nacionalne
organizacije za standarde naslednjih držav: Avstrije, Belgije, Bolgarije, Cipra, Češke republike,
Danske, Estonije, Finske, Francije, Grčije, Islandije, Irske, Italije, Latvije, Litve, Luksemburga,
Madžarske, Malte, Nizozemske, Nemčije, Norveške, Poljske, Portugalske, Romunije, Slovaške,
Slovenije, Španije, Švedske, Švice in Združenega kraljestva.

5

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SIST EN 12354-5 : 2009
Uvod

Ocenjevanje ravni hrupa zaradi obratovalne opreme v stavbah je zapletena naloga ter strukturnega
zvoka in prevajanja ni mogoče v celoti razumeti. Poleg tega so velike razlike med različno opremo ter
namestitvami in je določena namestitev pogosto vir obeh, zvoka v zraku in strukturnega zvoka. Ta
dokument vsebuje okvir za možno obravnavanje te teme. Glavni del (točka 4) opisuje splošne modele
prevajanja zvoka ter pripadajoče vire za kanale in za zvok v zraku in strukturni zvok skozi stavbo. Za
prevajanje zvoka v zraku in strukturnega zvoka se uporabljata dela 1 in 2 EN 12354, kjerkoli je to
mogoče.

Točka 5 je namenjena uporabi teh modelov za različne vrste obratovalne opreme in stavb in navaja,
kaj je že znanega ter je na voljo, in česa ni. Informativni dodatki dajejo dodatna pojasnila z različnih
vidikov, ki se nanašajo na vire in njihovo proizvajanje zvoka, kot tudi posebne vidike prevajanja zvoka
skozi stavbo. Kjer je to mogoče, so navedeni napotki na razpoložljive priročnike, literaturo ali pripravo
standardov. Sčasoma bodo lahko nekateri dodatki ali njihovi deli izbrisani, posebno tisti, ki se
nanašajo na nastajanje zvoka virov, ko bodo na voljo ustrezni standardi.

Za prevajanje zvoka skozi kanale so na voljo standardizirane metode za določanje zvočne moči virov
ali prenosnih izgub elementov. Za ocenjevanje se obširno uporabljajo različni priročniki.

Za prevajanje zvoka v zraku skozi stavbo obstajajo pojasnila o virih in prevajanju, vendar so nekateri
pojavi, ki so posebno pomembni v zvezi z obratovalno opremo, manj znani, kot so to vpliv bližnjega
zvočnega polja, nedifuzni pojavi ter vzbujanje in prevajanje pri nizkih frekvencah. Za te pojave so
podane nekatere indikacije, na kakšen način se lahko obravnavajo, in tudi možne usmeritve kot
indikacija za nadaljnje raziskave in prihodnje dopolnitve metod.

Za prevajanje strukturnega zvoka obstajajo podobni problemi in rešitve, kot se uporabljajo za zvok v
zraku. Vendar se primerne metode za podrobni opis virov in vzbujanja strukturnega zvoka šele
pričenjajo uveljavljati, večinoma znotraj CEN (TC 128/WG7) z delom na področju standardizacije. Zato
je bila v tem dokumentu v modelih izbrana uporaba splošne veličine, imenovane »karakteristična
raven moči strukturnega zvoka« virov, celo tistih, za katere trenutno ni na voljo praktične merske
metode. To dovoljuje splošno obliko za ocenjevalne modele, ki bodo lahko v prihodnje razviti in
izboljšani. Za nekatere vrste opreme so podana pojasnila v informativnih dodatkih o tem, kako se ta
veličina lahko izvede ali oceni iz razpoložljivih ali obstoječih merskih metod, kot so jih že razvili v CEN.

Namen tega dokumenta je zagotoviti splošni temelj za praktično približevanje k ocenjevanju ravni
zvoka zaradi obratovalne opreme. Razjasnjuje tudi potrebo po delu pri karakterizaciji virov z označbo
področij, na katerih so potrebne nadaljnje raziskave.
6

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SIST EN 12354-5 : 2009
1 Področje uporabe

Ta dokument opisuje računske modele za izračun ravni zvočnega tlaka v stavbah zaradi obratovalne
opreme. Kot dokument, ki obravnava meritve na terenu (EN 16032), se nanaša na sanitarne
inštalacije, mehansko prezračevanje, ogrevanje in hlajenje, obratovalno opremo, dvigala, jaške za
smeti, kotle, ventilatorje, črpalke in drugo pomožno obratovalno opremo ter parkirna vrata na
mehaniziran pogon za avtomobile, vendar se lahko uporablja tudi za drugo pritrjeno ali vgrajeno
opremo v stavbi. Računanje temelji predvsem na merskih podatkih, ki so značilni tako za vir hrupa kot
za konstrukcijo stavbe. Opisani modeli so uporabni za računanje po frekvenčnih pasovih.

Ta dokument opisuje načela računskih modelov, navaja relevantne veličine in opredeljuje nji
...

SLOVENSKI STANDARD
oSIST prEN 12354-5:2007
01-julij-2007
$NXVWLNDYVWDYEDK2FHQMHYDQMHDNXVWLþQLKODVWQRVWLVWDYEL]ODVWQRVWLVHVWDYQLK
GHORYGHO=YRþQHUDYQLREUDWRYDOQHRSUHPH
Building acoustics - Estimation of acoustic performance of building from the performance
of elements - Part 5: Sounds levels due to service equipment
Bauakustik - Berechnung der akustischen Eigenschaften von Gebäuden aus
Bauteileigenschaften - Teil 5: Schallpegel von haustechnischen Anlagen
Acoustique du bâtiment - Calcul de la performance acoustique des bâtiments a partir de
la performance des éléments - Partie 5: Niveaux sonores dus aux équipements du
bâtiment
Ta slovenski standard je istoveten z: prEN 12354-5
ICS:
91.120.20 $NXVWLNDYVWDYEDK=YRþQD Acoustics in building. Sound
L]RODFLMD insulation
oSIST prEN 12354-5:2007 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------
EUROPEAN STANDARD
DRAFT
prEN 12354-5
NORME EUROPÉENNE
EUROPÄISCHE NORM
March 2007
ICS

English Version
Building acoustics - Estimation of acoustic performance of
building from the performance of elements - Part 5: Sounds
levels due to service equipment
Acoustique du bâtiment - Calcul de la performance
acoustique des bâtiments à partir de la performance des
éléments - Partie 5: Niveaux sonores dûs aux équipements
du bâtiment
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee CEN/TC 126.
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 Management Centre has the
same status as the official 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.
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
Management Centre: rue de Stassart, 36 B-1050 Brussels
© 2007 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 12354-5:2007: E
worldwide for CEN national Members.

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prEN 12354-5:2007 (E)
Contents Page
Foreword.4
Introduction .5
1 Scope.6
2 Normative references.6
3 Relevant quantities.8
3.1 Quantities to express building performance .8
3.2 Quantities to express product performance.9
4 Calculation models.9
4.1 General principles.9
4.2 Air-borne sound transmission through pipes and ducts .11
4.2.1 General.11
4.2.2 sources.12
4.2.3 Transmission.14
4.3 Air-borne sound transmission through building construction.16
4.3.1 General.16
4.3.2 Sources.17
4.3.3 Transmission in source room .18
4.3.4 Transmission through building.18
4.4 Structure-borne transmission through building construction .19
4.4.1 General.19
4.4.2 Sources.20
4.4.3 Transmission through the mounting.21
4.4.4 Transmission through the building .22
5 Application of models .23
5.1 Application to ventilation systems .23
5.1.1 General.23
5.1.2 Guidelines for the application .24
5.2 Application to heating installations.25
5.2.1 General.25
5.2.2 Guidelines.25
5.3 Application to lift installations .26
5.3.1 General.26
5.3.2 Guidelines.26
5.4 Application to water supply installations.27
5.4.1 General.27
5.4.2 Guidelines.30
5.5 Application to waste water installations .33
5.5.1 General.33
5.5.2 Guidelines for the application .33
5.6 Application to miscellaneous service equipment .33
5.6.1 General.33
5.6.2 Guidelines.34
6 Accuracy.34
Annex A (normative) List of symbols.35
Annex B (informative) Air-borne sound sources in duct systems.38
B.1 Sound power level of fans .38
B.2 Sound power level of flow-generated sound .38
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prEN 12354-5:2007 (E)
Annex C (informative) Air-borne sound sources.39
C.1 Sound sources.39
C.1.1 Waste water appliances.39
C.1.2 Whirlpool baths.39
C.1.3 Heating systems.39
C.2 Sound transmission in source room.39
Annex D (informative) Structure-borne sound sources.41
D.1 Measurement of characteristic structure-borne sound power level.41
D.1.1 General.41
D.1.2 Equivalent force source.42
D.1.3 Force source with known source mobility.42
D.1.4 Equivalent velocity source .44
D.1.5 Water supply appliances.45
D.1.6 Whirl pool baths .45
D.1.7 Waste water appliances.46
D.2 Mounting with elastic supports .48
D.3 Estimation of data on source strength, elastic supports and source mobilities.48
Annex E (informative) Sound transmission through elements of duct and pipe systems .50
E.1 Introduction.50
E.2 Duct wall.50
E.3 Along straight, unlined duct.51
E.4 Along straight, lined duct / silencer .51
E.5 Area changes.52
E.6 Branches.52
E.7 Air terminal devices and openings.52
E.8 Radiation by openings.53
Annex F (informative) Sound transmission in buildings .55
F.1 Transmission through junctions .55
F.2 Adjustment term.56
F.3 Mobility of supporting building elements.57
F.3.1 Essentially homogeneous elements .57
F.3.2 Elements with beams.57
F.3.3 Excitation near borders and corners [12] .58
F.4 Measurement of total transmission.58
F.4.1 Air-borne sound transmission.58
F.4.2 Structure-borne sound transmission .59
Annex G (informative) Sound levels at low frequencies.61
Annex H (informative) Guidance for the design of service equipment systems.63
H.1 General.63
H.2 Choice of equipment.63
H.3 Location of a service equipment room and air-handling unit.63
H.4 Airborne sound insulation of service equipment room .64
H.5 Structure borne sound and vibration insulation.64
H.5.1 Heavy structure.64
H.5.2 Lightweight structure.64
H.6 Pipes and ductwork.65
Annex I (informative) Calculation examples.66
Bibliography.67

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prEN 12354-5:2007 (E)
Foreword
This document (prEN 12354-5:2007) has been prepared by Technical Committee CEN/TC 126 “Acoustic
properties of building elements and of buildings”, the secretariat of which is held by AFNOR.
This document is currently submitted to the CEN Enquiry.
This document is the first version of a standard, which forms a part of a series of standards specifying calcula-
tion models in building acoustics:
 Part 1: Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 1: Airborne sound insulation between rooms.
 Part 2: Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 2: Impact sound insulation between rooms.
 Part 3: Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 3: Airborne sound insulation against outdoor sound.
 Part 4: Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 4: Transmission of indoor sound to the outside.
 Part 5: Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 5: Sound levels due to service equipment.
 Part 6: Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 6: Sound absorption in enclosed spaces.
Although this part covers the most common types of service equipment and installations in buildings, it cannot
as yet cover all types and all situations. It sets out an approach for gaining experience for future improvements
and developments.
The accuracy of this standard can only be specified in detail after widespread comparisons with field data,
which can only be gathered over a period of time after establishing the prediction model. To help the user in
the mean time, indications of the accuracy have been given, based on earlier comparisons with comparable
prediction models. It is the responsibility of the user (i.e. a person, an organisation, the authorities) to address
the consequences of the accuracy, inherent for all measurement and prediction methods, by specifying
requirements for the input data and/or applying a safety margin to the results or applying some other
correction.
Annex A forms an integral part of this part of EN 12354. Annexes B, C, D, E, F, G and H are for information
only.
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prEN 12354-5:2007 (E)
Introduction
The estimation of sound levels due to service equipment in buildings is a complex task and structure-borne
sources and transmission are not completely understood. In addition there are large variations between
different equipment and installations and an installation often comprises both airborne and structure-borne
sources. This document contains a framework within which this subject can be treated. The main part (chapter
4) describes general models for the sound transmission and the related sources for ducts, airborne sound
through buildings and structure-borne sound through buildings. For airborne and structure-borne sound
transmission parts 1 and 2 of EN 12354 are used wherever possible.
In clause 5 the application of these models to the different types of service equipment in buildings is treated,
specifying what is already known and available and what is not. In several annexes additional information is
given on various aspects, related to sources and their sound production as well as to specific aspects of
sound transmission through buildings.
For sound transmission through ducts there are standardized methods available to determine the sound
power level of sources or the transmission loss of elements. Various handbooks are widely used for these
estimations.
For airborne sound transmission through buildings there is existing information about sources and
transmission, but some aspects that are particularly relevant to service equipment are less well known, such
as the effect of acoustic near-fields, non-diffuse spaces and excitation and transmission at low frequencies.
For these aspects some indications are given as to how they could be treated and also as an indicator for the
direction of further research and future improvements to the models.
For structure-borne sound transmission similar solutions and problems exist as used for airborne sound.
However, here the appropriate methods to characterize the sources for structure-borne sound excitation are
not available, although there are various proposals in the literature and work has started within CEN
(TC126/WG 7) Therefore in this document a choice has been made to use a general quantity in the models,
called "the characteristic structure-borne sound power level" of sources, even though there is no practical
measurement method available at the moment. This allows the estimation models to have a general form that
could be developed and improved in the future. For some types of equipment indications are given in an
informative annex as to how this quantity can be deduced or estimated from available and current
measurement methods, like the ones already proposed by WG 7.
The aim of this document is to provide a general basis for a practical approach to the estimation of sound
levels due to service equipment. It also clarifies the need for work on source characterisation with an
indication of areas where further research work is needed.
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prEN 12354-5:2007 (E)
1 Scope
This document describes calculation models to estimate the sound pressure level in buildings due to service
equipment. As for the field measurement document (EN ISO 16032) it covers sanitary installations,
mechanical ventilation, heating and cooling, service equipment, lifts, rubbish chutes, boilers, blowers, pumps
and other auxiliary service equipment, and motor driven car park doors, but can also be applied to others
equipment attached to or installed in buildings. The estimation is primarily based on measured data that
characterises both the sources and the building constructions. The models given are applicable to calculations
in frequency bands.
This document describes the principles of the calculation models, lists the relevant quantities and defines its
applications and restrictions. It is intended for acoustical experts and provides the framework for the
development of application documents and tools for other users in the field of building construction, taking into
account local circumstances.
The calculation models described use the most general approach for engineering purposes, with a link to
measurable quantities that specify the performance of building elements and equipment. The known
limitations of these calculation models are described in this document. Users should, however, be aware that
other calculation models also exist, each with their own applicability and restrictions.
The models are based on experience with predictions for dwellings and offices; they could also be used for
other types of buildings provided the dimensions of constructions are not too different from those in dwellings.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
prEN 1151-2, Pumps – Rotodynamic pumps  Circulation pumps having an electrical effect not exceeding
200 W for heating installations and domestic hot water installations  part 2: Noise test code (vibro-acoustics)
for measuring structure- and fluid-borne noise.
EN 12354-1, Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 1: Airborne sound insulation between rooms.
EN 12354-2, Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 2: Impact sound insulation between rooms.
EN 12354-6, Building Acoustics  Estimation of acoustic performance of buildings from the performance of
elements  Part 6: Sound absorption in enclosed spaces.
EN ISO 16032, Acoustics  Measurement of sound pressure level from service equipment in buildings 
engineering method.
ISO 3740-3747, Acoustics  Determination of sound power levels of noise sources  various methods.
ISO 3822-1, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water
supply installations  Part 1: Method of measurement.
ISO 3822-2, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water
supply installations  Part 2: Mounting and operating conditions for draw-off taps and mixing valves.
ISO 3822-3, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water
supply installations  Part 3: Mounting and operating conditions for in-line valves and appliances.
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prEN 12354-5:2007 (E)
ISO 3822-4, Acoustics  Laboratory tests on noise emission from appliances and equipment used in water
supply installations  Part 4: Mounting and operating conditions for special appliances.
ISO 5135, Acoustics  Determination of sound power levels of noise from air terminal devices, air-terminal
units, dampers and valves by measurements in a reverberation room.
ISO 5136, Acoustics  Determination of sound power radiated into a duct by fans  In-duct method.
ISO 7235, Acoustics  Measurement procedure for ducted silencers  Insertion loss, flow noise and total
pressure loss.
ISO 9611, Acoustics  Characterization of sources of structure-borne sound with respect to sound radiation
from connected structures  Measurement of velocity at the contact points of machinery when resiliently
mounted.
ISO 10846-1, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of
resilient elements  Part 1: Principles and guidelines.
ISO 10846-2, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of
resilient elements  Part 2: Dynamic stiffness of elastic supports for translatory motion  Direct method.
ISO 10846-3, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of
resilient elements  Part 3: Method for determination of the dynamic stiffness of resilient supports for
translatory motion.
ISO 10846-4, Acoustics and vibration  Laboratory measurement of vibro-acoustic transfer properties of
resilient elements  Part 4: Dynamic stiffness of elements other than resilient supports for translatory motion.
ISO 11546-1, Acoustics  Determination of sound insulation performances of enclosures  Part 1:
Measurements under laboratory conditions (for declaration purposes).
ISO 11691, Acoustics  Measurement of insertion loss of ducted silencers without flow  Laboratory survey
method.
EN 13141-1, Ventilation for buildings  Performance testing of components/products for residential ventilation
 Part 1: Externally and internally mounted air transfer devices.
EN 13141-2, Ventilation for buildings  Performance testing of components/products for residential ventilation
 Part 2: Exhaust and supply air terminal devices.
ISO 13141-3, Ventilation for buildings  Performance testing of components/products for residential
ventilation  Part 3: Range hoods for residential use.
ISO 13141-4, Ventilation for buildings  Performance testing of components/products for residential
ventilation  Part 4: Fans used in residential ventilation systems.
ISO 13141-5, Ventilation for buildings  Performance testing of components/products for residential
ventilation  Part 5: Cowls and roof outlet terminal devices.
ISO 13141-6, Ventilation for buildings  Performance testing of components/products for residential
ventilation  Part 6: Exhaust ventilation system packages used in a single dwelling.
ISO 13141-7, Ventilation for buildings  Performance testing of components/products for residential
ventilation  Part 7: Performance testing of a mechanical supply and exhaust ventilation units (including heat
recovery) for mechanical ventilation systems intended for single family dwellings.
EN 14366, Building Acoustics  Laboratory measurement of noise from waste water installations.
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prEN 12354-5:2007 (E)
3 Relevant quantities
3.1 Quantities
...

SIST EN 12354-5:2009

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