SIST EN 17669:2023

SLOVENSKI STANDARD
SIST EN 17669:2023
01-januar-2023
Pogodbe o energetski učinkovitosti - Minimalne zahteve
Energy Performance Contracting - Minimum requirements
Energiespar-Contracting - Mindestanforderungen
Contrat de performance énergétique - Exigences minimales
Ta slovenski standard je istoveten z: EN 17669:2022
ICS:
27.015 Energijska učinkovitost. Energy efficiency. Energy
Ohranjanje energije na conservation in general
splošno
SIST EN 17669:2023 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 17669:2023

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SIST EN 17669:2023


EUROPEAN STANDARD EN 17669

NORME EUROPÉENNE

EUROPÄISCHE NORM
November 2022
ICS 27.015

English version

Energy Performance Contracts - Minimum requirements
Contrat de performance énergétique - Exigences Energiespar-Contracting - Mindestanforderungen
minimales
This European Standard was approved by CEN on 2 October 2022.

CEN and CENELEC 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 and CENELEC 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 and CENELEC member into its own language and notified to the CEN-CENELEC
Management Centre has the same status as the official versions.

CEN and CENELEC members are the national standards bodies and national electrotechnical committees of Austria, Belgium,
Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy,
Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Republic of North Macedonia, Romania, Serbia,
Slovakia, Slovenia, Spain, Sweden, Switzerland, Türkiye and United Kingdom.
























CEN-CENELEC Management Centre:
Rue de la Science 23, B-1040 Brussels
© 2022 CEN/CENELEC All rights of exploitation in any form and by any means
Ref. No. EN 17669:2022 E
reserved worldwide for CEN national Members and for
CENELEC Members.

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EN 17669:2022 (E)
Contents Page
European foreword . 3
Introduction . 4
1 Scope . 6
2 Normative references . 6
3 Terms and definitions . 6
4 Scope and boundaries of the EPC . 9
5 EPC’s energy targets . Error! Bookmark not defined.
6 Contractual energy baseline . 11
7 Specification and description of the EPIA(s) . 12
8 Methodology for the evaluation of the energy efficiency improvement (ex-post) . 13
9 Methodology for the evaluation of other improvement measures (ex post) . 14
10 Energy service provider obligations . 14
11 Beneficiary and energy service provider obligations for EPIAs on assets owned by the
beneficiary . 15
12 Additional obligations of the energy service provider . 16
13 Beneficiary obligations . 16
14 Financing mechanisms . 16
15 Guaranteed savings . 17
16 Reporting for other improvement measures . 18
17 Duration . 18
18 Payment mechanisms - Invoicing . 19
19 Risk assessment, mitigation and allocation . 20
20 Insurance . 20
21 Exclusions . 21
Annex A (informative) Statistical analysis to determine baseline EnPI and EnPIv . 22
Annex B (informative) Business plan of an EPC without energy supply in its scope . 26
Annex C (informative) Example of Risk allocation matrix . 36
Bibliography . 37

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EN 17669:2022 (E)
European foreword
This document (EN 17669:2022) has been prepared by Technical Committee CEN/CLC/JTC 14 “Energy
management and energy efficiency in the framework of energy transition”, the secretariat of which is held
by UNI.
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 May 2023, and conflicting national standards shall be
withdrawn at the latest by May 2023.
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.
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, Türkiye and the United
Kingdom.
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Introduction
Energy efficiency improvement is one of the pillars of the energy transition. It is considered as one of the
most cost-effective ways of addressing the growing demand for energy, climate change mitigation, energy
security and increased competitiveness.
Directive 2012/27/EU on energy efficiency defines the term "Energy Performance Contracting" as “a
contractual arrangement between the beneficiary and the provider of an energy efficiency improvement
measure, verified and monitored during the whole term of the contract, where investments (work, supply
or service) in that measure are paid for in relation to a contractually agreed level of energy efficiency
improvement or other agreed energy performance criterion, such as financial savings”.
NOTE Sometimes in English the term "Energy Performance Contracting" is used with the same meaning of
"Energy Performance Contract" although "contracting" can refer to the process of establishing and delivering an
energy performance contract.
The new energy efficiency directive (EU) 2018/2002 highlights that reaching an ambitious energy
efficiency target requires barriers to be removed to facilitate investment in energy performance
improvement actions (EPIAs). One step in that direction is the clarification provided by Eurostat on how
to record energy performance contracts for the public sector in national accounts, which offers
opportunities to remove uncertainties and facilitate the use of such contracts.
The lack of broadly accepted best practices or guidelines for Energy Performance Contracts (EPCs)
demands the development of a standard specifying the minimum requirements of the contractual
agreement that matches the needs of:
• policy makers to provide tools for quality, transparency and effectiveness in EPIAs;
• building owners, public or private organizations and energy service providers to adopt a contractual
framework for energy services that provides clear and transparent risk allocation and guaranteed
energy efficiency improvement and other agreed energy performance criteria;
• financial institutions and banks to have a reference contractual framework between user and energy
service provider that clearly specify value generation (including multiple benefits or co-benefits of
energy efficiency improvements) and risk allocation;
• property valuators to help assessing the value of the asset in relation to its energy efficiency and
sustainability performance for the project lifetime.
This standard addresses the multiple domains of the EPCs: technical, financial, legal and provides a
common framework of methods to integrate the minimum requirements of energy efficiency
improvement.
Because an EPC usually has an impact on the risk allocation between the energy service provider, the
financial institution and the beneficiary of the energy efficiency improvement services, the requirements
have implication on the economic evaluation, legal, fiscal and accounting procedures for both public and
private organizations.
This document can be used in conjunction with the following:
• management system standards,
• energy management standards,
• risk management standards,
• asset management standards,
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• underwriting procedures of financial institutions (European Bank Authority – EBA),
• international accounting standards (International Financial Reporting Standards - IFRS),
• Eurostat statistical treatment of EPC,
• Environmental Social and Governance (ESG) requirements, or
• Action plan for Sustainable Finance.
The production of renewable energy on site does not necessarily achieve energy efficiency improvement.
Even if energy consumption across the boundary decreases, there may be no measurable improvement
in energy efficiency related to the energy use as a result of the change.
However, renewable energy production may be a component of an EPC and is therefore considered to be
in the scope of this document when combined with an EPIA.
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1 Scope
This document specifies the minimum requirements for Energy Performance Contracts (EPCs). The
energy performance improvement actions (EPIAs) are intended to achieve a guaranteed level of energy
efficiency improvement and other agreed energy performance related criteria irrespective of the
quantity, use, or types of energy consumed.
This document is applicable to EPIA(s) on existing assets.
The requirements are set in order to provide:
• transparency throughout the whole process of establishing an EPC,
• cost effectiveness in relation to the benefits generated by the EPIA,
• a quality assurance, risk mitigation, and risk allocation toolkit,
• material information necessary for financial and technical calculations for both the beneficiary and
the energy service provider.
The document is applicable to energy service providers and beneficiaries regardless of their type, size,
complexity, or geographical location.
This document may be used by financial institutions and other stakeholders of the process.
NOTE This document could be used in conjunction with Eurostat or International Accounting Standards Board
(IASB) guidance or other standards to comply with taxonomy and non-financial reporting directive or Corporate
Sustainability reporting if applicable.
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 17463 Valuation of Energy Related Investments (VALERI)
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
energy consumption
quantity of energy applied
[SOURCE: EN ISO 50001:2018, 3.5.2]
3.2
energy efficiency
ratio or other quantitative relationship between an output of performance, service, goods, commodities,
or energy, and an input of energy
EXAMPLE Conversion efficiency, energy required/energy consumed
Note 1 to entry: Both input and output should be clearly specified in terms of quantity and quality and be
measurable.
[SOURCE: EN ISO 50001:2018, 3.5.3]
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3.3
energy performance
measurable result(s) related to energy efficiency, energy use, and energy consumption
Note 1 to entry: Energy performance can be measured against the organization’s objectives, energy targets and
other energy performance requirements.
[SOURCE: EN ISO 50001:2018, 3.4.3]
3.4
energy performance contract
EPC
contractual agreement between the provider of EPIA(s) and a beneficiary
Note 1 to entry: The investments necessary for the implementation of the actions are paid for in relation to the
contractually agreed level of energy performance improvement and other agreed criteria.
Note 2 to entry: The energy performance improvement is verified and monitored during the whole duration of the
contract.
Note 3 to entry: The definition is taken with modification from the definition of Energy Performance Contracting of
Directive 2012/27/EU.
Note 4 to entry: Sometimes in English the term "Energy Performance Contracting" is used with the same meaning
of "Energy Performance Contract" although "contracting" may refer to the process of establishing and delivering an
energy performance contract.
3.5
energy performance contract boundary
physical, geographical, or organizational limit as agreed between the beneficiary and the energy service
provider
EXAMPLE Industrial plant, building(s) or their parts (a production line, a group of processes, a boiler, air
compressing equipment, lighting system, building envelope, building HVAC system, vehicles of a fleet of vehicles).
3.6
energy performance contract scope
set of facilities and/or activities that the EPC addresses
Note 1 to entry: The scope can include several boundaries.
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3.7
energy performance improvement action
EPIA
action or measure or group of actions or measures, implemented or planned, intended to achieve energy
performance improvement through technological, managerial, or operational, behavioural, economical,
or other changes
[SOURCE: ISO 50015:2014, 3.5, and ISO 50046:2019, 3.11]
EXAMPLE A non-exhaustive list of EPIAs is the following:
• measures in order to reduce the energy consumption;
• replacement, modification or addition of equipment;
• more efficient operation;
• continuous optimization of operation of technical installations;
• improved maintenance;
• deployment of behavioural change programs;
• implementation of an energy management system.
Note 1 to entry: For the purpose of this document the term “energy performance improvement action/measure” is
equivalent to “energy efficiency improvement action/measure” since the only kind of performance that can be
normalized, as requested by this standard, is the energy efficiency.
3.8
energy performance indicator
EnPI
measure or unit of energy performance, as defined by the organization
Note 1 to entry: EnPI(s) can be expressed by using a simple metric, ratio, or a model, depending on the nature of the
activities being measured.
Note 2 to entry: See ISO 50006 for additional information on EnPI(s).
[SOURCE: EN ISO 50001:2018, 3.4.4]
3.9
energy performance indicator value
EnPIv
quantification of the EnPI at a point in or over a specified period of time
[SOURCE: EN ISO 50001:2018, 3.4.5]
3.10
energy service provider
a natural or legal person who delivers energy services or other energy efficiency improvement actions in
a final customer’s facility or premises
Note 1 to entry: An ESCO (Energy Service Company) is a type of energy service provider.
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3.11
energy use
application of energy
EXAMPLE Ventilation; lighting; heating; cooling; transportation; data storage; production process
Note 1 to entry: Energy use is sometimes referred to as ‘energy end-use’.
[SOURCE: EN ISO 50001:2018, 3.5.4]
3.12
materiality
quality of being relevant and significant to the parties involved in the EPC
Note 1 to entry: Material information is information which is critical to the decision making process of the parties
involved in the EPC and if omitted, misstated or obscured could reasonably be expected to influence the decision of
the beneficiary, the energy service provider or a third party.
Note2 to entry: Materiality relates to financial, technical, or other aspects.
EXAMPLE Examples of material information are, as a non exhaustive list, the following:
• EnPI adopted to measure energy efficiency improvement;
• baseline measured EnPI leading to the evaluation of guaranteed energy efficiency improvement,
environmental impact reduction and economic saving;
• measured EnPI after the implementation of the EPIA(s);
• adjustment factors to determine energy efficiency improvement;
• investment (capex), operational costs (opex), emerging costs (stranded assets), and measurable benefits that
have an economic value.
3.13
service level:
service targets agreed between energy service supplier and beneficiary
EXAMPLE The service level could be: comfort level, operating hours, maintenance frequency, and/or plan,
production output, etc.
4 Scope and boundaries of the EPC
The EPC shall:
a) be appropriate and cost effective in relation to the benefits generated by the EPIA;
b) provide a risk mitigation and risk allocation framework both in technical and monetary terms;
c) deliver material information for the due diligence and underwriting procedures of financial
institutions to support financeability;
d) provide material information for statistical treatment and financial accounting;
e) specify reporting guidelines for financial, non financial, sustainability disclosure, and property
valuators;
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f) meet the beneficiary energy performance requirements related to the expected service.
The scope and boundaries of the EPC shall be defined.
The scope of the EPC shall be described in an exhaustive and unequivocal way.
The boundaries within which the EPIAs shall be implemented shall be described including the energy
types for each energy use and the detail of each individual action.
The energy efficiency improvement achieved by the implementation of the EPC shall be demonstrated
through measurement and verification.
5 Energy targets of the EPC
The EPC shall specify the guaranteed energy targets to be achieved during the contract duration. Energy
targets shall be measurable and associated to relevant EnPIs. Each EnPI should be related to a
contractually agreed baseline.
Energy targets shall be expressed in the same units as the relevant EnPIs specified in the baseline. The
change in an EnPIv can be expressed as an absolute value or as a percentage.
The energy targets shall include the service level to be achieved.
The EPC can also include other objectives such as (non-exhaustive example list):
• environmental: GHG emissions or other emissions reduction objectives;
• reduction in costs;
• improvement in safety measures;
• improvement of earthquake building code implementation.
EPC investments, operational costs, and economic profit for the energy service provider are paid for in
relation to a contractually agreed level of energy efficiency improvement or other agreed energy
performance criteria or financial savings.
The economic evaluation of an EPC is assessed using a global valuation method and over the long term
(for example using EN 17463 Valuation of Energy Related Investments (VALERI)).
NOTE Additional objectives set in the EPC and that do not lead to savings directly connected to energy
efficiency savings are generally paid in relation to other criteria specified in the EPC.
An EPC shall include, as a minimum:
a) a description of the EPIA(s);
b) the ex-ante EnPI related to the boundary of the EPIA(s);
c) the relevant variables and static factors and a statement on the need to update them during the
contract lifetime;
d) an algorithm that correlates the EnPI(s) with the relevant variables and static factors;
e) the guaranteed energy efficiency improvement in relation to relevant variables and static factors
for the whole contract duration;
f) the methodology for measurement and verification and the frequency (at least annually) and
content of the reporting to assess the energy efficiency improvement over time;
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g) the value of the investment committed for the implementation of the EPIA(s);
h) the responsibilities and payment allocation for the energy supply;
i) the ownership of the EPIA(s) asset(s);
j) the responsibilities and the allocation of costs for operation, maintenance and repairs for the
whole contract duration of the EPC;
k) a description of compensations, penalties or remedies (financial, technical or other) where
achieved savings fall short of the annual guaranteed energy saving, and one or more clauses
dealing with any eventual early termination of the contract;
l) a description of bonuses or other benefits where achieved savings exceed the annual guaranteed
energy saving;
m) the definition and beneficiary of any kind and form of applicable incentives (economic, financial,
fiscal, etc.);
n) the identification of EPIA’s implementation risks and their mitigation and allocation;
o) the contract duration;
p) a clause that allows the parties to manage justified changes in one or more of the previous items,
if required.
6 Contractual energy baseline
The contractual energy baseline is a value for a reference period that appropriately represents the range
of operating conditions ex-ante implementation of the EPIA(s). This enables changes in energy
performance to be accurately represented by comparing EnPIv(s) for the reporting and baseline periods.
The type of information needed to establish an energy baseline is determined by the specific purpose of
the EPIA(s), and by the effect of relevant variables on energy performance.
The EPC shall specify an exhaustive, qualitative, and quantitative assessment of the ex-ante energy
efficiency performance within the scope of the agreement, indicating:
a. boundaries of the energy system;
b. period and duration of the measurement of the energy consumption. The period, frequency of
measurement and number of measurements taken shall be representative and significative to
compare energy performance in the reporting period.
The energy service providers and the beneficiary shall select an adequate data collection
frequency (e.g. hourly, daily, weekly) for each energy consumption and relevant variable included
in the EnPI and the corresponding contractual energy baseline.
The data collection period and frequency should be sufficient to capture operating conditions and
provide an adequate number of data points for statistical analysis. For statistical analysis it is
critical that energy consumption and associated relevant variables have the same time intervals.
An example of statistical analysis to determine EnPI and EnPIv is reported in the informative
Annex A;
c. measured energy consumption (direct or indirect measurement);
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d. energy drivers and adjustment / normalizations factors (relevant variables and static factors);
e. definition of significant EnPI and EnPIv. Values are accurate and material within the
measurement intervals used to calculate them.
In some cases, the energy baseline, EnPI and EnPIv are provided by the beneficiary or a third party
selected by the beneficiary. In these cases, it is important that:
• the energy service provider agrees to the adoption of the EnPI and EnPIv, or
• provisions are specified in the EPC (grace period, additional measurement plan, etc.) to reach, in a
defined period of time, the agreement on the provided metric and values or to a new set of indicators
and values.
Baseline for other “non-energy” related indicators are outside the scope of this standard. Nevertheless,
the same methodology can be applied.
The EPC shall identify and allocate the responsibilities to resolve:
• uncertainties in the measurement (or lack of measurements) and calculations of EnPI(s) in the
baseline, leading to inaccuracy of energy efficiency improvement evaluation;
• project risks linked to any influencing factors such as market conditions, impacts resulting from
climate change, changes of use and more widely every exogenous factor non attributable to the
energy services provider making an impact on energy consumption within the boundary of the EPIA.
NOTE 1 EN 17267 specifies the requirements and principles for the design and implementation of an energy
measurement and monitoring plan. This document can be considered as a tool to facilitate the data collection.
NOTE 2 ISO 50006 can be considered as a tool to facilitate the identification of baseline and EnPI.
7 Specification and description of the EPIA(s)
For each EPIA the following shall be specified and made transparent and verifiable for the beneficiary:
a) the reasons used to select the EPIA, unless chosen by the beneficiary;
b) the general description/category(ies) of the action:
1) measures to reduce the energy consumption (Installing building insulation, reduction of
leakage of compressed air, etc.);
2) replacement, modification or addition of equipment (Combined heat and power generation,
high efficiency boilers, variable speed motors, energy efficient lighting, connection to a
heating or cooling network, etc.);
3) more efficient operation (Building automation, logistic and layout optimization, parameter
setting, etc.);
4) improved maintenance (Maintenance planning, Internet of things, training instruction of the
operation and maintenance staff, etc.);
5) deployment of behavioral change programs (Energy efficiency awareness campaign, training,
etc.);
NOTE 1 The above list is taken from EN 15900:2009.
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NOTE 2 General description refers to the kind of EPIAs that are going to be implemented.
c) the specific description of the action:
1) technical specification and energy performance of the asset(s);
2) number of units;
3) operational maintenance or planned replacement requirements for the duration of the
contract;
4) expected interaction with existing equipment and use of additional resources (water, land,
emissions, etc);
5) expected energy efficiency improvement in the relevant EnPIv(s);
6) other expected qualitative and measurable benefits or improvements. These benefits may
include environmental benefits, waste reduction, comfort, contribution to circular economy,
contribution to climate change adaptation and/or mitigation, water consumption reduction,
etc.;
7) required permits;
8) expected technical lifetime;
9) beneficiary duties, obligation and needed/useful actions to be performed at the end of or
after the EPC duration;
EXAMPLE Maintenance requirements, insurance obligations, reimbursement of the guaranties, etc.
10) end of life disposal requirements.
8 Methodology for the evaluation of the energy effici
...