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SIST EN 17472:2022

(Main)

Sustainability of construction works - Sustainability assessment of civil engineering works - Calculation methods

Sustainability of construction works - Sustainability assessment of civil engineering works - Calculation methods

The document provides the specific methods and requirements for the assessment of environmental, economic and social performances of a civil engineering works while taking into account the civil engineering work’s functionality and technical characteristics. The primary objective of this document is to help in the decision making for a project by providing a standardized method for enabling comparability of scheme options. The document has not been designed to be used for the development of sustainability labels however, this use is not precluded.
The assessment of environmental and economic performances of a civil engineering works is based on Life Cycle Assessment (LCA), Life Cycle Cost (LCC), Whole-Life Cost (WLC) and other quantified environmental and economic information. The approach to the assessment covers all stages of the civil engineering works life cycle and includes all civil engineering works related construction products, processes and services, used over its life cycle. The document is applicable to new and existing civil engineering works and refurbishment projects. The environmental performance is based on data obtained from Environmental Product Declarations (EPD) and additional indicators.
The assessment of social performance differs from the assessment of economic and environmental aspects because it requires both quantitative and descriptive approaches.
The document provides requirements for:
-   the description of the object of assessment;
-   the system boundary that applies at the civil engineering works level;
-   the procedure to be used for the analysis;
-   definition of the indicators to be declared, information to be provided and the way in which they are collated and reported,
-   presentation of the results in reporting and communication;
-   the data necessary for the application of the standard and calculation.
Whenever the asset includes building(s) as part of the civil engineering works the building(s) will be assessed using EN 15978 for environmental performance, EN 16309 for social performance and EN 16627 for economic performance.

Nachhaltigkeit von Bauwerken - Bewertung der Nachhaltigkeit von Ingenieurbauwerken - Rechenverfahren

Das Dokument stellt die speziellen Verfahren und Anforderungen für die Bewertung der umweltbezogenen, ökonomischen und sozialen Qualität eines Ingenieurbauwerkes unter Berücksichtigung der Funktionalität und technischen Eigenschaften des Ingenieurbauwerks bereit. Das Hauptziel dieses Dokumentes besteht darin, zur Entscheidungsfindung bei einem Projekt beizutragen, indem ein genormtes Verfahren bereitgestellt wird, das die Vergleichbarkeit von Programmoptionen ermöglicht. Das Dokument wurde nicht dafür ausgelegt, um für die Entwicklung von Nachhaltigkeitslabels verwendet zu werden, wobei diese Verwendung jedoch nicht ausgeschlossen ist.
Die Bewertung der umweltbezogenen und ökonomischen Qualität eines Ingenieurbauwerks beruht auf der Ökobilanz (LCA), den Lebenszykluskosten (LCC), den Lebenszykluskosten im weiteren Sinne (WLC) sowie weiteren quantifizierten umweltbezogenen und ökonomischen Angaben. Der Ansatz für die Bewertung umfasst alle Phasen des Lebenszyklus des Ingenieurbauwerkes und schließt alle mit dem Ingenieurbauwerk verbundenen Bauprodukte, Prozesse und Dienstleistungen ein, die über dessen Lebenszyklus verwendet werden. Das Dokument ist für neue und bereits bestehende Ingenieurbauwerke sowie für Erneuerungs¬projekte anwendbar. Die umweltbezogene Qualität beruht auf Daten, die von Umweltproduktdeklarationen (EPD) und weiteren Indikatoren stammen.
Die Bewertung der sozialen Qualität unterscheidet sich von der Bewertung der ökonomischen und umweltbezogenen Aspekte, da hierfür sowohl quantitative als auch beschreibende Ansätze erforderlich sind.
Das Dokument stellt Anforderungen bereit für:
-   die Beschreibung des Gegenstandes der Bewertung;
-   die Systemgrenze, die auf Ebene des Ingenieurbauwerks gilt;
-   das für die Analyse anzuwendende Verfahren;
-   die Definition der zu deklarierenden Indikatoren, der bereitzustellenden Angaben und der Art, wie diese auf Vollständigkeit überprüft und kommuniziert werden;
-   die Darstellung der Ergebnisse bei der Berichterstattung und Kommunikation;
-   die Daten, die für die Anwendung der Norm und die Berechnung erforderlich sind.
Wenn der Sachwert (ein) Gebäude als Teil des Ingenieurbauwerks einschließt, werden das/die Gebäude hinsichtlich der umweltbezogenen Qualität nach EN 15978, hinsichtlich der sozialen Qualität nach EN 16309 und hinsichtlich der ökonomischen Qualität nach EN 16627 bewertet.

Contribution des ouvrages de construction au développement durable - Évaluation de la contribution au développement durable des ouvrages de génie civil - Méthodes de calcul

Le présent document établit les exigences et méthodes spécifiques pour l'évaluation des performances environnementales, économiques et sociales d'un ouvrage de génie civil tout en tenant compte de la fonctionnalité et des caractéristiques techniques de cet ouvrage. Le présent document facilite la prise de décision pour un projet en fournissant une méthode normalisée permettant de comparer les différentes options.
L'évaluation des performances environnementale et économique d'un ouvrage de génie civil est basée sur l'analyse du cycle de vie (ACV), le coût du cycle de vie (CCV), le coût global du cycle de vie (WLC) et d'autres informations environnementales et économiques quantifiées. L'approche de l'évaluation couvre toutes les étapes du cycle de vie des ouvrages de génie civil, y compris tous les produits, procédés et services de construction liés à ces ouvrages, et utilisés tout au long de leur cycle de vie.
Le présent document s'applique aux ouvrages de génie civil neufs et existants, ainsi qu'aux projets de réhabilitation. Les performances environnementales sont basées sur les données obtenues à partir des Déclarations Environnementales de Produits (DEP) et d'indicateurs supplémentaires.
Le présent document n'est pas applicable à l'évaluation des performances environnementales, sociales et économiques des bâtiments faisant partie d'ouvrages de génie civil. Les normes EN 15978, EN 16309 et EN 16627 s'appliquent.

Trajnostnost gradbenih objektov - Ocenjevanje trajnostnosti gradbenih inženirskih objektov - Računske metode

Dokument podaja posebne metode in zahteve za ocenjevanje okoljskih, gospodarskih ter družbenih učinkov gradbenih inženirskih objektov, pri čemer upošteva funkcionalnost in tehnične značilnosti gradbenega inženirskega objekta. Glavni cilj tega dokumenta je olajšati postopke odločanja pri posameznem projektu z zagotavljanjem standardizirane metode za omogočanje primerljivosti možnosti sistemov. Dokument ni namenjen uporabi za razvoj trajnostnih oznak, vendar takšna uporaba ni izključena.
Ocenjevanje okoljskih in gospodarskih učinkov gradbenih inženirskih objektov temelji na oceni življenjskega cikla (LCA), stroških življenjskega cikla (LLC), celotnih stroških v življenjski dobi (WLC) ter drugih količinsko opredeljenih okoljskih in gospodarskih podatkih. Pristop k oceni zajema vse faze življenjskega cikla gradbenih inženirskih objektov ter vključuje vse gradbene proizvode, postopke in storitve, povezane z gradbenimi inženirskimi objekti, ki se uporabljajo skozi njihov celoten življenjski cikel. Ta dokument se uporablja za nove in obstoječe gradbene inženirske objekte in obnovitvene projekte. Ocena okoljskega učinka temelji na podatkih, pridobljenih iz okoljskih deklaracij o proizvodih (EPD) in dodatnih kazalnikov.
Ocena družbenega učinka se razlikuje od ocene gospodarskih in okoljskih vidikov, saj hkrati zahteva tako kvantitativni kot deskriptivni pristop.
Dokument podaja zahteve za:
–   opis predmeta ocene;
–   mejo sistema, ki velja za raven gradbenih inženirskih objektov;
–   postopek, ki ga je treba uporabljati za analizo;
–   opredelitev kazalnikov, ki jih je treba deklarirati, podatke, ki jih je treba navesti ter način njihovega zbiranja in sporočanja;
–   predstavitev rezultatov pri poročanju in komuniciranju;
–   podatke, potrebne za uporabo standarda in za izračun.
Kadar sredstvo v okviru gradbenih inženirskih objektov vključuje zgradbo/zgradbe, se za ocenjevanje zgradbe/zgradb uporabljajo standard EN 15978 za okoljski učinek, standard EN 16309 za družbeni učinek in standard EN 16627 za gospodarski učinek.

General Information

Status
Published
Public Enquiry End Date
19-Apr-2020
Publication Date
14-Jun-2022
ICS
13.020.20 - Environmental economics. Sustainability
91.040.01 - Buildings in general
Technical Committee
TGO - Sustainability of construction works
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
19-May-2022
Due Date
24-Jul-2022
Completion Date
15-Jun-2022
Mandate
M/526 - [C(2014)3451] Standardisation request to the European standardisation organisations pursuant to Article 10 (1) of Regulation (EU) No 1025/2012 of the European Parliament and of the Council in support of implementation of the EU Strategy on Adaptation to Climate Change [COM(2013) 216 final]
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Standards Content (Sample)

SLOVENSKI STANDARD
SIST EN 17472:2022
01-julij-2022
Trajnostnost gradbenih objektov - Ocenjevanje trajnostnosti gradbenih inženirskih
objektov - Računske metode
Sustainability of construction works - Sustainability assessment of civil engineering works
- Calculation methods
Nachhaltigkeit von Bauwerken - Bewertung der Nachhaltigkeit von Ingenieurbauwerken -
Rechenverfahren
Contribution des ouvrages de construction au développement durable - Évaluation de la
contribution au développement durable des ouvrages de génie civil - Méthodes de calcul
Ta slovenski standard je istoveten z: EN 17472:2022
ICS:
13.020.20 Okoljska ekonomija. Environmental economics.
Trajnostnost Sustainability
91.040.01 Stavbe na splošno Buildings in general
SIST EN 17472:2022 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 17472:2022

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SIST EN 17472:2022


EN 17472
EUROPEAN STANDARD

NORME EUROPÉENNE

February 2022
EUROPÄISCHE NORM
ICS 91.040.01
English Version

Sustainability of construction works - Sustainability
assessment of civil engineering works - Calculation
methods
Contribution des ouvrages de construction au Nachhaltigkeit von Bauwerken - Bewertung der
développement durable - Évaluation de la contribution Nachhaltigkeit von Ingenieurbauwerken -
au développement durable des ouvrages de génie civil - Rechenverfahren
Méthodes de calcul
This European Standard was approved by CEN on 1 November 2021.

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. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC 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
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, Turkey and
United Kingdom.





EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2022 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 17472:2022 E
worldwide for CEN national Members.

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SIST EN 17472:2022
EN 17472:2022 (E)
Contents Page
European foreword . 4
Introduction . 5
1 Scope . 8
2 Normative references . 8
3 Terms and definitions . 9
4 Abbreviations . 23
5 The process for the assessment . 23
6 Purpose of the assessment. 24
7 Specification of the object of assessment . 25
7.1 General . 25
7.2 Functional equivalent . 25
7.3 Reference study period . 27
7.4 System boundary . 28
7.5 Civil engineering works’ model . 36
7.6 Additional functions . 37
8 Scenarios for defining the civil engineering works life cycle . 38
8.1 General . 38
8.2 Requirements for scenarios . 39
8.3 Scenarios for the pre-construction stage (Module A0) . 39
8.4 Scenarios for the product stage (Modules A1, A2 and A3) . 39
8.5 Scenarios for the construction process stage (Modules A4 and A5) . 39
8.6 Scenarios for use stage (Modules B1-B8) . 40
8.7 Scenarios for the end of life stage (Modules C1 to C4) . 42
8.8 Scenarios for benefits and loads beyond the system boundary (Module D) . 43
9 Quantification of materials and products . 43
9.1 General . 43
9.2 Specification net amount . 43
9.3 Specification gross amount. 44
10 Data for the assessment . 45
10.1 General . 45
10.2 Data quality . 46
10.3 Selection of environmental data . 46
10.4 Selection of social data . 47
10.5 Selection of economic data . 48
11 Methods for assessment of environmental, economic and social performance . 49
11.1 General . 49
11.2 Environmental performance . 51
11.3 Social performance . 60
11.4 Economic performance . 83
11.5 Management mechanisms. 90
12 Reporting and communication. 91
12.1 General . 91
12.2 Information on the assessment . 91
2

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SIST EN 17472:2022
EN 17472:2022 (E)
12.3 Statement of boundaries, scenarios used, and additional functions considered in the
assessment . 92
12.4 Data sources . 92
12.5 Communication of assessment results. 92
13 Verification of results . 94
Annex A (informative) Energy use – case studies . 95
A.1 General . 95
A.2 Study case: hydroelectric power plant. 95
A.2.1 Description of the civil engineering works . 95
A.2.2 Description of the energy production and consumption unit(s) . 95
A.2.3 Scenario and boundary limit for the assessment . 95
Annex B (informative) Noise emissions calculation . 97
Annex C (informative) Examples of climate change impacts . 98
Annex D (informative) Websites with European climate scenarios . 101
Annex E (informative) List of indicators in this document . 102
Bibliography . 116

3

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SIST EN 17472:2022
EN 17472:2022 (E)
European foreword
This document (EN 17472:2022) has been prepared by Technical Committee CEN/TC 350 “Sustainability
of construction works”, 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 August 2022, and conflicting national standards shall be
withdrawn at the latest by August 2022.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document has been prepared under a mandate given to CEN by the European Commission and the
European Free Trade Association.
Any feedback and questions on this document should be directed to the users’ national standards body.
A complete listing of these bodies can be found on the CEN website.
According to the CEN-CENELEC Internal Regulations, the national standards organisations of the
following countries are bound to implement this European Standard: 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, Turkey and the United
Kingdom.
4

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SIST EN 17472:2022
EN 17472:2022 (E)
Introduction
This document provides rules for the assessment of the sustainability of civil engineering works including
environmental, economic and social aspects.
Figure 1 illustrates how the assessment of the environmental, economic and social performances fits
within the concept of the sustainability assessment of a civil engineering works.

NOTE The outer box with the dashed line represents the area standardized by CEN/TC 350 – Sustainability of
construction works.
Figure 1 — Concept of sustainability assessment of civil engineering works
Those economic, social or environmental requirements not expressed in the sustainability assessment
are communicated, too.
This document supports quantification of the contribution of the assessed civil engineering works to
sustainable construction and sustainable development.
The evaluation of technical and functional performance is beyond the scope of this document. Technical
and functional characteristics are taken into account here by reference to the functional equivalent, which
also forms a basis for comparison of the results of assessments.
Although the assessment of technical and functional performance does not form part of this series of
standards, their interrelationship with environmental, social and economic performance is a prerequisite
for an assessment of sustainability of construction works and, therefore, is taken into account, as
illustrated in Figure 1.
5

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SIST EN 17472:2022
EN 17472:2022 (E)
The method of assessment of sustainability described in this document is based on a life cycle approach
and provides a consistent model for describing and recording the civil engineering works and its life cycle
for assessing the environmental, economic and social performance. For the assessment of the three
aspects, the same reference study period is used.
The assessment of social performance differs from the assessment of economic and environmental
aspects because it requires both quantitative and descriptive approaches.
The document sets requirements for:
— the description of the object of assessment;
— the system boundary that applies at the civil engineering works level;
— the procedure to be used for the analysis;
— definition of the indicators to be declared, information to be provided and the way in which they are
collated and reported;
— presentation of the results in reporting and communication; and
— the data necessary for the application of the standard and calculation.
The economic assessment is undertaken at the civil engineering works level. However, it requires
technical and cost information about individual products and components within the civil engineering
works and its services and systems, including service life data, type and frequency of maintenance,
replacement and repair, and deconstruction and disposal. This information is used as input quantities for
the calculation of cost in the life cycle of the civil engineering works.
The framework and the general requirements for sustainability assessments of civil engineering works
are specified in EN 15643. Further documents on sustainability assessment have already been developed
by CEN/TC 350 or are currently under development. Table 1 gives an overview on relevant standards
related to sustainability of construction works. Each standard has been assigned to either the framework
level, the works level, or the product level according to the specifications it contains.
6

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SIST EN 17472:2022
EN 17472:2022 (E)
Table 1 — Overview on relevant sustainability of construction works standards
 Sustainability assessment
Technical
Functionality
characteristics
 environmental social economic
c
ISO 15686-1
Framework EN 15643 Framework for assessment of buildings
a
Service life

level and civil engineering works
planning
b b
prEN 15978-1 EN ISO 52000-1
EN 16309 EN 16627
Environmental Energy
Social Economic

performance performance of
performance performance
Works of buildings buildings
of buildings of buildings
level
prEN 17680 Evaluation of potential for sustainable building refurbishment
EN 17472 Sustainability assessment of

civil engineering works
EN 15804
EPD core rules
CEN/TR 16970
Guidance for
EN 15804 c
ISO 15686-2
Service life
prEN 15941
prediction
data quality
procedures
EN 15942
c
ISO 15686-7
Communication
format B-to-B
Performance
evaluation for
Product
prEN 17672

feedback of
level
Horizontal rules
service life data
for B-to-C
from practice
communication
c
ISO 15686-8
prEN ISO 22057
Reference
Data templates
service life and
for the use of
service-life
EPDs in BIM
estimation
CEN/TR 17005
Additional
impact
categories and
indicators
NOTE 1 The complete titles of the documents shown above can be found in Clause 3 or in the Bibliography.
NOTE 2 The documents in the grey fields are part of the current CEN/TC 350 work programme.
a
Functional requirements are part of the client’s brief and building regulations.
b
The revision of EN 16309 and EN 16627 as parts 2 and 3 of EN 15978 is under preparation in CEN/TC 350.
c
The document has been developed by ISO/TC 59/SC 14 “Design life”.
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SIST EN 17472:2022
EN 17472:2022 (E)
1 Scope
This document establishes the requirements and specific methods for the assessment of environmental,
economic and social performances of a civil engineering works while taking into account the civil
engineering works’ functionality and technical characteristics. By the means of this document the
decision making for a project is supported by providing a standardized method for enabling
comparability of scheme options.
The assessment of environmental and economic performances of a civil engineering works is based on
Life Cycle Assessment (LCA), Life Cycle Cost (LCC), Whole-Life Cost (WLC) and other quantified
environmental and economic information. The approach to the assessment covers all stages of the civil
engineering works life cycle and includes all civil engineering works related construction products,
processes and services, used over its life cycle.
This document is applicable to new and existing civil engineering works and refurbishment projects. The
environmental performance is based on data obtained from Environmental Product Declarations (EPD)
and additional indicators.
This document is not applicable for the assessment of the environmental, social and economic
performance of building(s) as part of the civil engineering works; instead, EN 15978, EN 16309 and
EN 16627 apply.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements 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 15804, Sustainability of construction works — Environmental product declarations — Core rules for the
product category of construction products
EN 16309, Sustainability of construction works — Assessment of social performance of buildings —
Calculation methodology
EN ISO 52000-1, Energy performance of buildings — Overarching EPB assessment — Part 1: General
framework and procedures (ISO 52000-1)
ISO 15686-1, Buildings and constructed assets — Service life planning — Part 1: General principles and
framework
ISO 15686-2, Buildings and constructed assets — Service life planning — Part 2: Service life prediction
procedures
ISO 15686-5, Buildings and constructed assets — Service life planning — Part 5: Life-cycle costing
ISO 15686-7, Buildings and constructed assets — Service life planning — Part 7: Performance evaluation
for feedback of service life data from practice
ISO 15686-8, Buildings and constructed assets — Service-life planning — Part 8: Reference service life and
service-life estimation
ISO 1996-2, Acoustics — Description, measurement and assessment of environmental noise — Part 2:
Determination of sound pressure levels
8

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SIST EN 17472:2022
EN 17472:2022 (E)
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— IEC Electropedia: available at https://www.electropedia.org/
— ISO Online browsing platform: available at https://www.iso.org/obp
3.1
accessibility
ability for users to access the service(s) that the civil engineering works is providing and/or to access
nature
Note 1 to entry: Examples of services that can be provided include water or energy supply and mobility service.
3.2
adaptability
ability of the object of assessments or parts thereof to be changed or modified to make suitable for a
particular use
[SOURCE: ISO 21929-1:2011, 3.4, modified – “of the object of assessments or parts thereof” has been
added.]
3.3
adaptation to climate change
climate change adaptation
process of adjustment to actual or expected climate and its effects
Note 1 to entry: In human systems, adaptation seeks to moderate or avoid harm or exploit beneficial
opportunities.
Note 2 to entry: In some natural systems, human intervention can facilitate adjustment to expected climate and
its effects.
[SOURCE: ISO 14090:2019, 3.1]
3.4
appliance
device or piece of equipment designed to perform a specific task
3.5
area of influence
area or combination of areas surrounding a civil engineering works that can be affected with changes to
their economic, environmental or social conditions by the civil engineering works’ operations throughout
its life cycle
Note 1 to entry: The area of influence is variable and dependent on the civil engineering works project, its
location and its life cycle stage.
Note 2 to entry: The area of influence is defined per aspect.
Note 3 to entry: The area of influence concerns only the civil engineering works and not construction products.
Example: Stones coming from China, China is not in the influence area.
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SIST EN 17472:2022
EN 17472:2022 (E)
[SOURCE: ISO/TS 21929-2:2015, 3.2, modified – The second sentence from Note 1 has been removed, the
Notes 2 and 3 have been added.]
3.6
assembled system
part of works
component or a set of components incorporated in the civil engineering works
3.7
brief
document that states the client’s requirements for a construction project
[SOURCE: ISO 6707-2:2017, 3.2.18, modified – “client’s” and “construction” has been added.]
3.8
building
construction works that has the provision of shelter for its occupants or contents as one of its main
purposes, usually enclosed and designed to stand permanently in one place
[SOURCE: ISO 6707-1:2020, 3.1.1.3, modified – “partially and totally” and Note 1 have been removed.]
3.9
civil engineering works
construction works comprising a structure, such as a dam, bridge, road, railway, runway, utilities,
pipeline, or sewerage system, or the result of operations such as dredging, earthwork, geotechnical
processes, but excluding a building and its associated site works
[SOURCE: ISO 6707-1:2020, 3.1.1.2, modified – Note 1 has been removed.]
3.10
climate
statistical description of weather in terms of the mean and variability of relevant quantities over a period
of time ranging from months to thousands or millions of years
Note 1 to entry: The classical period for averaging these variables is 30 years, as defined by the World
Meteorological Organization.
Note 2 to entry: The relevant quantities are most often near-surface variables such as temperature, precipitation
and wind.
[SOURCE: ISO 14090:2019, 3.4]
3.11
climate change
change in climate that persists for an extended period, typically decades or longer
Note 1 to entry: Climate change can be identified by such means as statistical tests (e.g. on changes in the mean,
variability).
Note 2 to entry: Climate change might be due to natural processes, internal to the climate system, or external
forcings such as modulations of the solar cycles, volcanic eruptions, and persistent anthropogenic changes in the
composition of the atmosphere or in land use.
[SOURCE: ISO 14090:2019, 3.5]
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EN 17472:2022 (E)
3.12
client
person or organization initiating and financing a project and approving the brief
[SOURCE: ISO 6707-1:2020]
3.13
construction product
item manufactured or processed for incorporation in civil engineering works
Note 1 to entry: Construction products are items supplied by a single responsible body.
[SOURCE: ISO 6707-1:2020, 3.4.1.2, modified – “construction works” has been replaced by “civil
engineering works”; Note 1 has been replaced.]
3.14
component
construction product manufactured as a distinct unit to serve a specific function or functions
3.15
construction site
area of land or water where construction work or civil engineering works is undertaken
[SOURCE: ISO 6707-1:2020, 3.1.1.5, modified – “other development” has been replaced by “civil
engineering works”.]
3.16
construction work
activities of forming a civil engineering works
[SOURCE: ISO 6707-1:2020, 3.5.1.1, modified – “construction works” has been replaced by “a civil
engineering works”.]
3.17
construction works
everything that is constructed or results from construction operations
Note 1 to entry: Refers to both building and civil engineering works.
[SOURCE: ISO 6707-1:2020, 3.1.1.1, modified – Note 1 has been removed.]
3.18
decommissioning
activities that change a building or a civil engineering works or an assembled system from an operational
status to a non-operational status
3.19
design life
service life intended by the designer
[SOURCE: ISO 15686-1:2011, 3.3]
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3.20
discount rate
factor or rate used to convert future expenses or incomes to their present value reflecting the time value
of money
3.21
disposal
waste treatment operation other than recovery even where the operation has a secondary consequence
the reclamation of substances or energy
[SOURCE: Directive 2008/98/EC, modified – “disposal means any operation which is not” has been
replaced by “waste treatment operation other than” in the definition; “Annex I sets out a non-exhaustive
list of disposal operations” has been removed.]
3.22
downstream process
process that is carried out after the designated process in the stream of relevant processes
[SOURCE: ISO 21931-1:2010, 3.2]
3.23
economic aspect
characteristic of civil engineering works, part of works, processes or services related to their life cycle
that can cause change to economic conditions
[SOURCE: ISO 15392:2019, 3.12, modified – “construction works” has been replaced by “civil engineering
works”.]
3.24
economic impact
result of a change to the economic conditions, whether adverse, neutral or beneficial, wholly or partially
resulting from economic aspects
[SOURCE: ISO 15392:2019, 3.13.1, modified – definition of “impact” has been integrated in the definition.]
3.25
economic performance
performance related to economic impacts and economic aspects
3.26
environmental aspect
characteristic of civil engineering works, part of works, processes or services related to their life cycle
that can cause change to the environment
[SOURCE: ISO 15392:2019, 3.13, modified – “construction works” has been replaced by “civil engineering
works”.]
3.27
environmental impact
result of a change to the environment, whether adverse, neutral or beneficial, wholly or partially resulting
from environmental aspects
[SOURCE: ISO 15392:2019, 3.17.2, modified – definition of “impact” has been integrated in the definition.]
12

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...

SLOVENSKI STANDARD
oSIST prEN 17472:2020
01-april-2020
Trajnostnost gradbenih objektov - Ocenjevanje trajnostnosti gradbenih inženirskih
objektov - Računske metode
Sustainability of construction works - Sustainability assessment civil engineering works -
Calculation methods
Nachhaltigkeit von Bauwerken - Bewertung der Nachhaltigkeit von Ingenieurbauwerken -
Rechenverfahren
Ta slovenski standard je istoveten z: prEN 17472
ICS:
13.020.20 Okoljska ekonomija. Environmental economics.
Trajnostnost Sustainability
91.040.01 Stavbe na splošno Buildings in general
oSIST prEN 17472:2020 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 17472:2020

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oSIST prEN 17472:2020


DRAFT
EUROPEAN STANDARD
prEN 17472
NORME EUROPÉENNE

EUROPÄISCHE NORM

February 2020
ICS 91.040.01
English Version

Sustainability of construction works - Sustainability
assessment civil engineering works - Calculation methods
 Nachhaltigkeit von Bauwerken - Bewertung der
Nachhaltigkeit von Ingenieurbauwerken -
Rechenverfahren
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee
CEN/TC 350.

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, Turkey 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
© 2020 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 17472:2020 E
worldwide for CEN national Members.

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oSIST prEN 17472:2020
prEN 17472:2020 (E)
Contents Page
European foreword . 3
Introduction . 4
1 Scope . 6
2 Normative references . 6
3 Terms and definitions . 7
4 Abbreviations . 21
5 The process for the assessment . 21
6 Purpose of the assessment. 22
7 Specification of the object of assessment . 23
8 Scenarios for defining the civil engineering works life cycle . 35
9 Quantification of materials and products . 41
10 Data for the assessment . 43
11 Methods for assessment of environmental, economic and social performance . 46
12 Reporting and communication. 90
13 Verification of results . 93
Annex A (informative) Energy use – case studies . 94
A.1 Introduction . 94
A.2 Study case: hydroelectric power plant . 94
A.2.1 Description of the civil engineering works . 94
A.2.2 Description of the energy production and consumption unit(s) . 94
A.2.3 Scenario and boundary limit for the assessment . 95
Annex B (informative) Noise emissions calculation . 96
Annex C (informative) List of climate change impacts (non-exhaustive list) . 97
Annex D (informative) Websites with European climate scenario´s (non-exhaustive) . 100
Bibliography . 101

2

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oSIST prEN 17472:2020
prEN 17472:2020 (E)
European foreword
This document (prEN 17472:2020) has been prepared by Technical Committee CEN/TC 350
“Sustainability of construction works”, the secretariat of which is held by AFNOR.
This document is currently submitted to the CEN Enquiry.
3

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oSIST prEN 17472:2020
prEN 17472:2020 (E)
Introduction
The purpose of this document is to provide rules for the assessment of the sustainability of civil
engineering works including environmental, economic and social aspects.
Figure 1 illustrates how the assessment of the environmental, economic and social performances fits
within the concept of the sustainability assessment of a civil engineering works.

Figure 1 — Concept of sustainability assessment of civil engineering works
This document supports quantification of the contribution of the assessed civil engineering works to
sustainable construction and sustainable development.
The evaluation of technical and functional performance is beyond the scope of this document. Technical
and functional characteristics are taken into account here by reference to the functional equivalent, which
also forms a basis for comparison of the results of assessments.
This document is intended to support the decision-making process and documentation of the assessment
of the sustainability of a civil engineering work.
4

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In this document, the method of assessment of sustainability is based on a life cycle approach. It is
important to use a consistent model for describing and recording the civil engineering works and its life
cycle for assessing the environmental, economic and social performance. The same reference study
period is used for all three elements of the assessment.
The general requirements for sustainability assessment of civil engineering works are described in
EN 15643-5. Other standards developed by CEN/TC 350 in this area, and how they are related to this
document, are shown in Figure 2.

Figure 2 — Work programme of CEN/TC 350
NOTE 1 The environmental assessment at civil engineering works level requires information from products and
services (EN 15804).
NOTE 2 The economic assessment is undertaken at the civil engineering works level. However, it requires
technical and cost information about individual products and components within the civil engineering works and
its services and systems, including service life data, type and frequency of maintenance, replacement and repair,
and deconstruction and disposal. This information is used as input quantities for the calculation of cost in the life
cycle of the civil engineering works.
5

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1 Scope
The document provides the specific methods and requirements for the assessment of environmental,
economic and social performances of a civil engineering works while taking into account the civil
engineering work’s functionality and technical characteristics. The primary objective of this document is
to help in the decision making for a project by providing a standardized method for enabling
comparability of scheme options. The document has not been designed to be used for the development
of sustainability labels however, this use is not precluded.
The assessment of environmental and economic performances of a civil engineering works is based on
Life Cycle Assessment (LCA), Life Cycle Cost (LCC), Whole-Life Cost (WLC) and other quantified
environmental and economic information. The approach to the assessment covers all stages of the civil
engineering works life cycle and includes all civil engineering works related construction products,
processes and services, used over its life cycle. The document is applicable to new and existing civil
engineering works and refurbishment projects. The environmental performance is based on data
obtained from Environmental Product Declarations (EPD) and additional indicators.
The assessment of social performance differs from the assessment of economic and environmental
aspects because it requires both quantitative and descriptive approaches.
The document provides requirements for:
— the description of the object of assessment;
— the system boundary that applies at the civil engineering works level;
— the procedure to be used for the analysis;
— definition of the indicators to be declared, information to be provided and the way in which they are
collated and reported,
— presentation of the results in reporting and communication;
— the data necessary for the application of the standard and calculation.
Whenever the asset includes building(s) as part of the civil engineering works the building(s) will be
assessed using EN 15978 for environmental performance, EN 16309 for social performance and
EN 16627 for economic performance.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements 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 15804, Sustainability of construction works - Environmental product declarations - Core rules for the
product category of construction products
EN 15978, Sustainability of construction works - Assessment of environmental performance of buildings -
Calculation method
EN 16309, Sustainability of construction works - Assessment of social performance of buildings - Calculation
methodology
EN 16627, Sustainability of construction works - Assessment of economic performance of buildings -
Calculation methods
6

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ISO 15686-1, Buildings and constructed assets - Service life planning - Part 1: General principles and
framework
ISO 15686-2, Buildings and constructed assets - Service life planning - Part 2: Service life prediction
procedures
ISO 15686-5, Buildings and constructed assets - Service life planning - Part 5: Life-cycle costing
ISO 15686-7, Buildings and constructed assets - Service life planning - Part 7: Performance evaluation for
feedback of service life data from practice
ISO 15686-8, Buildings and constructed assets - Service-life planning - Part 8: Reference service life and
service-life estimation
ISO 15686-10, Buildings and constructed assets - Service life planning - Part 10: When to assess functional
performance
ISO 1996-2:2017, Acoustics - Description, measurement and assessment of environmental noise - Part 2:
Determination of sound pressure levels
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— IEC Electropedia: available at http://www.electropedia.org/

— ISO Online browsing platform: available at https://www.iso.org/obp
3.1
accessibility
ability for users to access the service(s) that the civil engineering works is providing and/or to access
nature
Note 1 to entry: Examples of services that can be provided include water or energy supply and mobility service.
3.2
adaptability
ability of the object of assessments or parts thereof to be changed or modified to make suitable for a
particular use
[SOURCE: ISO 21929-1:2011, modified]
7

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3.3
adaptation to climate change
climate change adaptation
process of adjustment to actual or expected climate and its effects
Note 1 to entry: In human systems, adaptation seeks to moderate or avoid harm or exploit beneficial
opportunities.
Note 2 to entry: In some natural systems, human intervention can facilitate adjustment to expected climate and
its effects.
[SOURCE: ISO 14090:2019, 3.1]
3.4
area of influence
area or combination of areas surrounding a civil engineering works that can be affected with changes to
their economic, environmental or social conditions by the civil engineering works’ operations throughout
its life cycle
Note 1 to entry: The area of influence is variable and dependent on the civil engineering works project, its
location and its life cycle stage.
Note 2 to entry: The area of influence is defined per aspect.
Note 3 to entry: The influence area concerns only the civil engineering works and not the construction products.
Example: Stones coming from China, China is not in the influence area.
[SOURCE: ISO/TS 21929-2:2015, 3.2, modified – Note 1 has been added. Notes 2 and 3 have been added.]
3.5
assembled system
part of works
component or a set of components incorporated in the civil engineering works
3.6
brief
document that states the client’s requirements for a construction project
[SOURCE: ISO 6707-2:2017, 3.2.18, modified]
3.7
building
construction works that has the provision of shelter for its occupants or contents as one of its main
purposes, usually enclosed and designed to stand permanently in one place
[SOURCE: ISO 6707-1:2017, 3.1.1.3, modified]
3.8
civil engineering works
construction works comprising a structure, such as a dam, bridge, road, railway, runway, utilities,
pipeline, or sewerage system, or the result of operations such as dredging, earthwork, geotechnical
processes, but excluding a building and its associated site works
[SOURCE: ISO6707-1:2017, 3.1.1.2]
8

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3.9
climate
statistical description of weather in terms of the mean and variability of relevant quantities over a period
of time ranging from months to thousands or millions of years
Note 1 to entry: The classical period for averaging these variables is 30 years, as defined by the World
Meteorological Organization.
Note 2 to entry: The relevant quantities are most often near-surface variables such as temperature, precipitation
and wind.
[SOURCE: ISO 14090:2019, 3.4]
3.10
climate change
change in climate that persists for an extended period, typically decades or longer
Note 1 to entry: Climate change can be identified by such means as statistical tests (e.g. on changes in the mean,
variability).
Note 2 to entry: Climate change might be due to natural processes, internal to the climate system, or external
forcings such as modulations of the solar cycles, volcanic eruptions, and persistent anthropogenic changes in the
composition of the atmosphere or in land use.
[SOURCE: ISO 14090:2019, 3.5]
3.11
client
person or organisation that requires a building or civil engineering works to be provided, altered or
extended and is responsible for initiating and approving the brief
3.12
construction product
item manufactured or processed for incorporation in civil engineering works
[SOURCE: ISO 6707-1:2017, 3.4.1.3, modified – “construction works” has been replaced by “civil
engineering works”. Note 1 has been removed.]
Note 1 to entry: Construction products are items supplied by a single responsible body.
3.13
component
construction product manufactured as a distinct unit to serve a specific function or functions
3.14
construction site
specified area of land where a building or a civil engineering works is located or is defined to be located
and construction work of the building or civil engineering works and associated external works are
undertaken
3.15
construction work
activities of forming a civil engineering works
[SOURCE: ISO 6707-1:2017, 3.5.1.1, modified]
9

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3.16
construction works
everything that is constructed or results from construction operations
[SOURCE: ISO 6707-1:2017, 3.1.1.1, modified – Note 1 has been removed.]
Note 1 to entry: This covers both building and civil engineering works, and both structural and non-structural
elements.
3.17
decommissioning
activities that change a building or a civil engineering works or an assembled system from an operational
status to a non-operational status
3.18
design life
service life intended by the designer
[SOURCE: ISO 15686-1:2011, 3.3]
3.19
discount rate
factor or rate reflecting the time value of money that is used to convert future expenses or incomes to
their present value
3.20
disposal
waste treatment operation other than recovery
[SOURCE: Directive 2008/98/EC, Art. 3, no. 19, modified – Definition has been shortened.]
3.21
downstream process
process that is carried out after the designated process in the stream of relevant processes
[SOURCE: ISO 21931-1:2010, 3.2]
3.22
economic aspect
characteristic of civil engineering works, part of works, processes or services related to their life cycle
that can cause change to economic conditions
[SOURCE: ISO/DIS 15392:2018, 3.12, modified – “construction works” has been replaced by “civil
engineering works”.]
3.23
economic impact
any change to the economic conditions, whether adverse or beneficial, wholly or partially resulting from
economic aspects
[SOURCE: ISO/DIS 15392:2018, 3.17.1 and 3.17]
10

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3.24
economic performance
performance related to economic impacts and economic aspects
3.25
environmental aspect
characteristic of civil engineering works, part of works, processes or services related to their life cycle
that can cause change to the environment
[SOURCE: ISO/DIS 15392:2018, 3.13, modified – “construction works” has been replaced by “civil
engineering works”]
3.26
environmental impact
any change to the environment, whether adverse or beneficial, wholly or partially resulting from
environmental aspects
[SOURCE: ISO/DIS 15392:2018, 3.17.2 and 3.17]
3.27
environmental performance
performance related to environmental impacts and environmental aspects
[SOURCE: ISO/DIS 15392:2018, 3.16]
3.28
escalation rate
positive or negative factor or rate reflecting an estimate of differential increase/decrease in the general
price Ievel for a particular commodity, or group of commodities, or resource
[SOURCE: ISO 15686-5:2017, 3.3.2, modified –Note 1 has been removed.]
3.29
estimated service life
service life that a building or civil engineering works or an assembled system would be expected to have
in a set of specific in-use conditions, determined from reference service life data after taking into account
any differences from the reference in-use conditions
[SOURCE: ISO 15686-1:2011, 3.7, modified – “civil engineering works or an assembled system” has been
added.]
3.30
exported energy
total energy, expressed per energy carrier, supplied by the civil engineering works through the system
boundary
3.31
external works
all infrastructure, external to the works structure, that is specifically or significantly needed for
constructing and maintaining the civil engineering works
11

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3.32
financial value
aggregate of costs and revenues of economic aspects expressed in monetary units, considering the price
level
3.33
functional equivalent
quantified functional requirements and/or technical requirements for a building or civil engineering
works or an assembled system for use as a basis for comparison
[ISO 21931-1:2010, 3,7, modified – “or civil engineering works or an assembled system” has been added.]
3.34
functional performance
performance related to the functionality of a civil engineering works or an assembled system which is
required by the client, users and/or by regulations
3.35
functional requirement
type and level of functionality of a building, civil engineering works or assembled system which is
required by the client, users and/or by regulations
3.36
functionality
suitability or usefulness for a specific purpose or activity
[SOURCE: ISO 15686-10:2010, 3.13]
3.37
gate
point at which the construction product or material leaves the factory before it becomes an input into
another manufacturing process or before it goes to the distributor, a factory or a construction site
[SOURCE: ISO 21930:2017, 3.3.8]
3.38
handover
step at which possession of the civil engineering works is surrendered to the client upon completion with
or without reservation
[ISO 6707-2:2017, 3.5.28 – “construction works” has been replaced by “civil engineering works”.]
3.39
impact category
class representing environmental issues of concern to which life cycle inventory analysis results may be
assigned
[SOURCE: EN ISO 14044:2006, 3.39]
3.40
impact category indicator
quantifiable representation of an impact category
[SOURCE: EN ISO 14044:2006, 3,40]
12

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3.41
information module
compilation of data to be used as a basis for a Type III environmental declaration, covering a unit process
or a combination of unit processes that are part of the life cycle of a product
[SOURCE: ISO 14025:2006, 3.13]
3.42
internal rate of return
IRR
discount rate, which makes the net present value equal to zero.
3.43
in-use condition
any circumstance that can impact the performance of a civil engineering works or assembled system (part
of works) under normal use
[SOURCE: ISO 15686-8:2008]
3.44
level of functionality
number indicating the relative functionality required for a user group or customer for one topic on a
predetermined demand scale from the level of the least (functionality) to the level of the most
(functionality)
Note 1 to entry: The level of functionality can be the consequence of several distinct functions required to act in
combination.
EXAMPLE Scale of integers from 0 to 9.
[SOURCE: ISO 15686-10:2010, 3.15]
3.45
life cycle
consecutive and interlinked stages in the life of the object under consideration
3.46
life cycle assessment
LCA
compilation and evaluation of the inputs, outputs and the potential environmental impacts of a product
system throughout its life cycle
[SOURCE: EN ISO 14044:2006, 3.2]
Note 1 to entry: In this context, a civil engineering works or assembled system is considered a “product” and a
part of a “product system”.
3.47
life cycle cost
LCC
cost of a civil engineering works or part of works throughout its whole life cycle
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3.48
life-cycle costing
a technique for estimating the cost of civil engineering works, systems and/or civil engineering works
components and materials, and for monitoring the cost incurred throughout the life cycle
3.49
life cycle impact assessment
LCIA
phase of life cycle assessment aimed at understanding and evaluating the magnitude and significance of
the potential environmental impacts for a product system throughout the life cycle of the product
[SOURCE: EN ISO 14044:2006, 3.2]
Note 1 to entry: In this context, a civil engineering works or assembled system is considered a “product” and a
part of a “product system”.
3.50
life cycle inventory analysis
LCI
phase of life cycle assessment involving the compilation and quantification of inputs and outputs for a
product throughout its life cycle
[SOURCE: EN ISO 14044:2006, 3.3]
Note 1 to entry: In this context, a civil engineering works or assembled system is considered a “product” and a
part of a “product system”.
3.51
maintainability
ability of a component, an assembled system or civil engineering works to be retained in a state in which
it can perform its required functions or be restored to such a state when a fault occurs
[SOURCE: ISO 6707-1:2017, 3.7.3.90, modified – “or construction” has been replaced by “an assembled
system or civil engineering works”.]
3.52
maintenance
combination of all technical and associated administrative actions during the service life to retain a civil
engineering works or an assembled system in a state in which it can perform its required functions
[SOURCE: ISO 15686-1:2011, 3.13, modified – “building, or its parts,” has been replaced by “civil
engineering works or an assembled system”.]
Note 1 to entry: Maintenance includes cleaning, servicing, repainting, replacing parts of the civil engineering
works where needed, etc.
3.53
neighbourhood
people, their living space and social networks in the area of influence.
3.54
net present value
NPV
sum of the discounted expenses and incomes related to an investment including initial investment cost
14

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3.55
operational energy use
energy use of civil engineering works technical system during use and operation of the civil engineering
works
EXAMPLE In a case of a road, the use concerns traffic and the operation concerns maintenance, lighting.
3.56
operational water use
building related water use of technical building system or user during use and operation of the civil
engineering works
3.57
performance
expression relating the magnitude of a particular aspect of the object of consideration relative to specified
requirements, objectives and/or targets
3.58
primary energy
energy that has not been subjected to any conversion or transformation process
[SOURCE: EN 15603:2008]
3.59
process
series of operations performed to achieve a desired result
[SOURCE: ISO 21931-1:2010, 3.11]
3.60
project
unique process, consisting of a set of coordinated and controlled activities undertaken to achieve an
objective
[SOURCE: ISO 6707-1:2017, 3.5.2.4]
3.61
project specification
specification of civil engineering works for a specific project that prescribes the construction work and
the construction products to be used and how they are to be applied
[ISO 6707-2:2017, 3.2.3, modified – “of civil engineering works” and “and how they are to be applied”
have been added.]
3.62
re-use
any operation by which products or components that are not waste are used again for the same purpose
for which they were conceived or used for other purposes without reprocessing
[Directive 2008/98/EC, Art. 3 no. 13, modified – “or used for other purposes without reprocessing” has
been added.]
15

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3.63
recovery
waste treatment operation that serves a purpose in replacing other resources or prepares waste for such
a use
3.64
recycling
any recovery operation by which waste materials are reprocessed into products, materials or substances
whether for the original or other purposes
Note 1 to entry: Recycling does not include energy recovery a
...

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SIST
SIST EN 15643:2021(Main)
Sustainability of construction works - Framework for assessment of buildings and civil engineering works
EN 15643:2021

This document provides principles and requirements for the assessment of environmental, social and economic performance of buildings and civil engineering works taking into account their technical characteristics and functionality. Assessments of environmental, social and economic performance are the three aspects of sustainability assessment of buildings and civil engineering works, or combination thereof, (hereafter referred to as “construction works”).
The framework applies to all types of construction works, both new and existing, and it is relevant for the assessment of the environmental, social and economic performance of new construction works over their entire life cycle, and of existing construction works over their remaining service life and end of life stage.
The sustainability assessment of construction works concentrates on the assessment of environmental, social and economic aspects and impacts of construction works expressed with quantifiable indicators. It includes the assessment of a construction works’ influence on the environmental, social and economic aspects and impacts on the local area (area of influence) and of the local infrastructure beyond the curtilage of the building and the civil engineering works. It excludes environmental, social and economic risk assessment.
The European Standards developed under this framework do not set the rules for how the different assessment methodologies may provide valuation methods; nor do they prescribe levels orclasses for measuring performance.
NOTE   Valuation methods, levels, classes or benchmarks can be prescribed in the requirements for environmental, social and economic performance in the client’s brief, construction regulations, national standards, national codes of practice, construction works assessment and certification schemes, etc.
The rules for assessment of environmental, social and economic aspects of organizations, such as management systems, are not included within this framework. However, the consequences of decisions or actions that influence the environmental, social and economic performance of the object of assessment are taken into account.

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SIST EN 16627:2015(Main)
Sustainability of construction works - Assessment of economic performance of buildings - Calculation methods
EN 16627:2015

This European Standard specifies the calculation methods, based on Life Cycle Costing (LCC) and other quantified economic information, to assess the economic performance of a building, and gives the means for the reporting and communication of the outcome of the assessment. This European Standard is applicable to new and existing buildings and refurbishment projects.
This European Standard gives:
—   the description of the object of assessment;
—   the system boundary that applies at the building level;
—   the scope and procedure to be used for the analysis;
—   the list of indicators and procedures for the calculations of these indicators;
—   the requirements for presentation of the results in reporting and communication;
—   and the requirements for the data necessary for the calculation.
The approach to the assessment covers all stages of the building life cycle and includes all building related construction products, processes and services, used over the life cycle of the building.
The interpretation and value judgments of the results of the assessment are not within the scope of this European Standard.

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SIST EN 16309:2014+A1:2015(Main)
Sustainability of construction works - Assessment of social performance of buildings - Calculation methodology
EN 16309:2014+A1:2014

This European Standard is one part of a suite of European Standards. The standard provides the specific methods and requirements for the assessment of social performance of a building while taking into account the building’s functionality and technical characteristics.
This European Standard applies to all types of buildings, both new and existing. In this first version of the standard, the social dimension of sustainability concentrates on the assessment of aspects and impacts for the use stage of a building expressed using the following social performance categories (from EN 15643 3):
-   accessibility;
-   adaptability;
-   health and comfort;
-   impacts on the neighbourhood;
-   maintenance;
-   safety and security.
NOTE 1   Only impacts and aspects of the above social performance categories are deemed to have an agreed basis for European standardization at this time. Two of the social performance categories included in EN 15643–3 (sourcing of materials and services and stakeholder involvement) are not deemed to be ready for standardization at this time and will be considered for inclusion in future versions of this standard (see informative Annex C).
This standard does not set the rules for how building assessment schemes may provide valuation methods. Nor does it prescribe levels, classes or benchmarks of performance.
Valuation methods, levels, classes or benchmarks may be prescribed in the requirements for environmental, social and economic performance in the client’s brief, building regulations, national standards, national codes of practice, building assessment and certification schemes, etc.
NOTE 2   Where National building regulations give minimum requirements and reference to assessment methods on these aspects, the social performance determined by assessment according to this standard can be used to determine the degree to which the building goes beyond the regulatory/legal requirements.
The corporate social responsibility (CSR) of organizations is not covered by this standard.
The standard gives requirements for:
-   the description of the object of assessment;
-   the system boundary that applies at the building level;
-   the list of indicators and procedures for the application of these indicators;
-   the presentation of the results in reporting and communication;
-   the data necessary for the application of the standard, and
-   verification.

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SIST EN 15978:2011(Main)
Sustainability of construction works - Assessment of environmental performance of buildings - Calculation method
EN 15978:2011

This European Standard is intended for the evaluation and assessment of design options and specifications for new and existing buildings and refurbishment projects.
The standard provides the calculation method, based on Life Cycle Assessment (LCA) to assess the environmental performance of a building and gives the means for the communication of the outcome of the assessment..
The standard gives:
-   the description of the object of assessment;
-   the system boundary that applies at the building level;
-   the procedure to be used for the inventory analysis;
-   the indicators and procedures to be used for the impact assessment
-   the requirements for presentation of the results;
-   and the requirements for the data necessary for the calculation;
The approach to the assessment covers all stages of the building life cycle and is based on data obtained from Environmental Product Declarations (EPD), their "information modules", (prEN 15804) and when appropriate other information related to the environmental performance of the building. as a whole. It includes all building-related  construction products, processes and services, over the life cycle of the building.
The interpretation and valuation of the results of the assessment are not within the scope of this standard.
Note: Indicators e.g. climate change, may be declared with reference to this standard without giving the complete list of indicators providing all indicators are calculated in accordance with the methodology developed in this standard.

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SIST-TP CEN/TR 15941:2011(Main)
Sustainability of construction works - Environmental product declarations - Methodology and data for generic data
CEN/TR 15941:2010

This technical report supports the development of Environmental Product Declarations (EPDs). It assists in using the product category rules (prEN 15804) during the elaboration of EPDs of building products, processes and services in a consistent way.
The requirements specifying the use of generic data are described in prEN 15804.

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oSIST prEN 15978-1:2021(Main)
Sustainability of construction works - Methodology for the assessment of performance of buildings - Part 1: Environmental Performance
prEN 15978-1

This European Standard specifies the calculation method, based on Life Cycle Assessment (LCA) and other quantified environmental information, to assess the environmental performance of a building, and gives the means for the reporting and communication of the outcome of the assessment. The standard is applicable to new and existing buildings and refurbishment projects.
The standard gives:
- the description of the object of assessment;
- the system boundary that applies at the building level;
- the procedure to be used for the inventory analysis;
- the list of indicators and procedures for the calculations of these indicators;
- the requirements for presentation of the results in reporting and communication;
- and the requirements for the data necessary for the calculation.
The approach to the assessment covers all stages of the building life cycle and is based on data obtained from Environmental Product Declarations (EPD), their "information modules" (prEN 15804) and other information necessary and relevant for carrying out the assessment. The assessment includes all building related construction products, processes and services, used over the life cycle of the building.
The interpretation and value judgments of the results of the assessment are not within the scope of this European Standard.

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kSIST FprEN 17680:2023(Main)
Sustainability of construction works — Evaluation of the potential for sustainable refurbishment of buildings
EN 17680:2023

This document provides a process for the evaluation of the potential for sustainable refurbishment of an existing building, as a mean of contributing to the circular economy. This document gives guidelines to assess performance of existing buildings in order to determine what to do in a set of alternatives: Refurbish for similar or new use, use as is or tear down. Sustainable refurbishment aims to close the gap between current performance and current requirements. It can be used for a building or part(s) of a building, as well as a portfolio of buildings.
This document gives a method for assessing performance of existing buildings:
   Technical (including energy) characteristics
   Usability for users
   Adaptability for changes
   Indoor environment (health aspects)
   Economic feasibility
   Embodied environmental impacts
The document describes the work to be done in main applicable categories of a 5 steps process:
   Step 1: Evaluating the building
   Step 2: Sustainable deconstruction
   Step 3: Sustainable construction process
   Step 4: Sustainable commissioning
   Step 5: Sustainable in use
Note: In this standard the users are people and organisations working in the building, including the facility management. In some building’s visitors are also important users.  
This approach is generic for all types of buildings. At present this document does not cover civil engineering work and it does not give benchmarks for the evaluation.
Assessment of the impacts of sustainable refurbishment of buildings is covered by calculation methods described in EN 15978 part 1 to 3

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oSIST prEN 15804:2008(Main)
Sustainability of construction works - Environmental product declarations - Product category rules
prEN 15804

This standard is applicable to building products, processes and services. The product category rules specify requirements for all building products in accordance with ISO 21930 (proposed to be implemented as EN ISO 21930 in another Work Item) and ISO 14025 for the intended audience whether business or consumers. This standard supports the application of environmental product declarations for the assessment of the environmental performance of buildings and for the assessment of the health & comfort performance of buildings in the framework of the integrated performance of buildings.

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