Rol en uitdagingen Europese normalisatie m.b.t. nationale EPBD implementatie
Energy Performance Buildings Standards: status and flexibility of the CEN and ISO standards on EPBD
Jaap Hogeling Chair CEN TC 371 Program Committee on EPBD
Chair of JWG of ISO TC 163&205 advisory group on coordination of ISO and CEN Work on EPB
[email protected] Fellow of ASHRAE and REHVA
CEN project on EPB standards development, current status
Basic principles EPB standards (EN/TS 16628)
Detailed Technical Rules (EN/TS 16629)
TR: Explanation and justification
(EN-ISO/TR 52000-2)
Overarching standard EPB (EN ISO 52000-1)
Whole set of EN (ISO) EPB standards
Fee
d b
ack
rev
isio
n
Phase 1 (2011-2014)
Phase 2
(2013-2016)
EPB in Vlaanderen
workshop
Many of EPB standards are expected to be
published as EN & EN-ISO standards
Modular structure of the set of standards on
Energy Performance of Buildings (EPB)
Climatic data
Operating
conditions
Building and
building
elements
Assessment
boundaries
Overall EP
balance
Ways to
express EP
Heating
systems
Cooling
systems
Lighting and
lighting
systems
Ventilation
systems
Domestic Hot
Water
systems
Building
automation &
Control Indoor Env.
Quality…..
Etc.
ISO 52000
ISO 52001
ISO 52003
ISO 52004
…
ISO 52009
ISO 52010
..
ISO 52015
ISO 52016
ISO 52017
ISO 52018
ISO 52019
ISO 52020
ISO 52021
ISO 52022
…
ISO 52145
ISO 52146
ISO 52147
ISO 52148
ISO 52149
ISO 52150
Consecutive
ISO numbers
reserved for
EPB set
various
standards
EPB in Vlaanderen
HEAT GAINS
EN 16789-1 (Internal gains)
EN ISO 52022-1-2-3 (Solar gains)
LIGHTING
EN 15193-1
BUILDING PROPERTIES
INDOOR ENVIRONMENT REQUIREMENTS
CLIMATIC CONDITIONS
CONVERSION TO PRIMARY ENERGY EN ISO 52000-1 (EN 15603)
ENERGY PERFORMANCE EN ISO 52003
CALCULATION OF BUILDING ENERGY NEEDS FOR HEATING, COOLING AND (DE)HUMIDIFICATION EN 52016-1
CALCULATION OF BUILDING POWER DEMAND EN 12831-1 (HEATING) / EN 16798-11 (COOLING)
EN ISO 6946
EN ISO 13789
EN ISO 10077
EN 12831-3
EN 15316-3-1
EN 16798-1 (Indoor Environment)
EN 16798-3 (Ventilation Systems)
EN 12464-1 (Visual Comfort)
EN ISO 52010-1
National
standards
DHW
EN 15316-1
EN 15316-3-2
EN 15316-5
EN 15316-3-3
VENTILATION
EN 16798-3
EN 16798-7
EN 16798-5
EN 16798-5
HEATING
EN 15316-1
EN 15316-2
EN 15316-3
EN 15316-5
EN 15316-4 (1 to 8)
COOLING
EN 16798-9
EN 15316-2
EN 15316-3
EN 16798-15
EN 16798-13
BUILDING
AUTOMA-
TION
SYSTEM &
CONTROL
EN 15232-1
TR 15232-2
Emission
Distribution
Storage
Generation
Energy needs
General
EN 15193-1
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Status/Planning EPB-project
• All 52 EPB standards are almost ready and will go out for the final Formal Vote by October 2016.
• The connected Technical Reports will be come available at the same time.
• Where relevant the connected Excel Files will be available to support the correct use and understanding of the calculation procedures included in the EPB standards
• After this Formal Voting we expect that by the end of 2016/ beginning of 2017 all EPB-standards will be published by the National Standard Bodies as EN or EN-ISO standards
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Observation in Europe • The modularly structured, transparent,
unambiguous, but flexible* set of EN and ISO EPB standards the important instrument to support the proper implementation of the EPBD policy in the EU MS’s
*: for local climate, national legal framework, building tradition, building use, existing local energy-infrastructure, etc…
• The basis for the EU voluntary certification scheme for non-residential buildings (VCS)
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Why we need this flexibility and transparency
Flexibility: to be suitable for:
– local climate,
– National/ regional legal framework,
– National/ regional building tradition and building use,
– existing local (national or regional) energy-infrastructure,
– Etc…
Transparency: to accommodate a levelled playing field when:
– Expressing the EP of buildings
– offering various energy (or CO2 emission) saving solutions
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8
EN-ISO 52000-1
Flexibility in use of EPB Standards the OAS: EN ISO 52000-1 as Backbone
• CALCULATION STRUCTURE EN ISO 52000-1 + general parts
• CALCULATION MODULES FOR EACH STEP 1 XLS per module
• EACH CALCULATION MODULE REQUIRES – INTERCONNECTION VALUES
(I/O TO THE STRUCTURE)
– PRODUCT DATA (LOCAL DATA)
– OTHER LOCAL DATA ABOUT SPECIFIC APPLICATION (LIKE LOCALISATION , INDOOR/ OUTDOOR INSTALLATION INFO)
EN ISO XXX
EN-ISO XXX
EN-ISO XXX
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
INTER CONNECTION
LOCAL DATA
MODULES
9
Replacing a module with a non- EN or EN-ISO-standard one
• Possible thanks to the modular structure
• … but the I/O structure has to be respected
• Needed info can be found both in the accompanying XLS and in the specific I/O clauses in the EN or EN-ISO standard
EN ISO 45000-1
EN ISO XXX
Non-EN Std
ISO XXX
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
NATIONAL MODULE
Set of EPB standards: unambiguous but flexible (allowing national choices, boundary conditions and input data)
Each EPB standard contains:
• Annex A (normative): template for choices and input data needed for using the standard
• Annex B (informative): informative default choices and input data
• In general:
– Each individual user of the EPB standard is free to create his/her own data sheet according to the template of Annex A (~ replace the default choices and values of Annex B)
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National implementation of EPB standards EPB standards provide calculation/assessment
procedures but do not include product or system requirements!
It is expected, if the default values and choices in Annex B are not followed due to national regulations, policy or traditions, that:
– Either the NSB will consider the possibility to add or include a National Annex in agreement with the template of Annex A.
– Or the national or regional authorities will, in the building regulations, reference the standard and prepare data sheets containing the national or regional choices and values, in agreement with the template of Annex A.
• Further target groups are: – users of the voluntary common European Union certification scheme for
the energy performance of non-residential buildings
– other Pan EU or Global parties wanting to motivate their policy by classifying the building EP for a dedicated building stock.
– Global Innovators on the EP-market EPB in Vlaanderen
Planning National implementatie van de EPB standards
• Hoewel de FV pas Okt./Nov. 2016 is, kunnen NSB’s
reeds nu beginnen om vast te stellen of er behoefte is aan nationale annexen bij de diverse EPB normen
• Een norm kan ook meerdere nationale annexen hebben, denk aan de toepassing voor:
1. woningbouw versus U-bouw of
2. Bestaande bouw versus nieuwbouw
3. Etc..
Choice of: Calculation interval The set of EPB standards allow both choices:
Hourly or Monthly
Monthly :
• Need to develop correction factors
Hourly :
• Intrinsically taken into account, if hourly
climatic data are available
The standards allow for both
options. If data are available,
hourly will be simpler
“Monthly method shall be equivalent to hourly method”
• Summer (dis)comfort
– Hourly method: can be derived from calculated hourly indoor temperatures.
– But also in hourly method: summer comfort indication is only valid if thermal zones are appropriately selected to indicate comfort problems!
– Discomfort indicator in monthly method? • E.g.: some countries use a ‘fictitious cooling system’ in case no
cooling system is available, but certain (comfort) temperature levels are expected according to the conditions of use (Level playing field)
• Same for heating! (rooms without heating equipment)
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EN ISO 52000-1- annex B B.6 Useful floor area and metric
for building size
Example table 16 and 18
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Table B.16 — Type of dimensions to determine the useful floor area
Dimension related to useful floor area Reference dimension
Energy performance
Conversion into
reference dimension
Simplified conversion methods between dimension types
Internal dimension (ID) Yes Yes Aid = 0,9 x Aoid
Overall internal dimension (OID) No No
External dimension (ED) No No
Others a)
a) In this case a more differentiated definition of useful floor area has to be added in free formatted text.
NOTE The conversion also affects the determination of some of the conditions of use (module M1-6) where these are expressed in quantities per m2 floor area (such as: occupancy, internal heat, non-EP electricity use …).
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Table B.18 — Which space categories are contributing to the reference size
Space categories (see Table A.3) Contributing? If YES:
(Optional) fraction of size contributing to ref. size (fref;cat,).
Default value = 1 a)
Residential living space, kitchen, bed room, study, bath room or toilet
YES 1,0
Residential individual: hall, corridor, staircase inside thermal envelope , attic inside thermal envelope
YES 1,0
Residential collective or non-residential: hall, corridor, staircase inside thermal envelope
YES 1,0
Thermally unconditioned adjacent space, such as storage room or unconditioned attic
NO
Thermally unconditioned sunspace or atrium NO
Hall, corridor outside thermal envelope NO
Office space YES 1,0
EN ISO 52000-1- annex B B.9 Perimeters and overheads included in the primary energy
factors
Example table 23
Example of a default choice in Annex B of the EN ISO 52000-1
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Table B.23 — Basis for the energy performance of buildings
Basis for the building energy performance Choice
Total energy performance (EP = EPtot) or non-renewable energy performance (EP = EPnren)
EP = EPnren
Illustratie hoe de annex A/B benadering in de IEQ standard is
gerealiseerd
• EN16798-1:2016 Indoor environmental input parameters for the design and assessment of energy performance of buildings
EPB in Vlaanderen
This IEQ Standard :
– deals with the indoor environmental parameters for thermal environment, indoor air quality, lighting and acoustics.
– specifies how to establish indoor environmental input parameters for building system design and energy performance calculations.
– includes design criteria for the local thermal discomfort factors, like draught, radiant temperature asymmetry, vertical air temperature differences, floor surface temperature.
– specifies occupancy schedules to be used in standard energy calculations
– Could be a basis for an IEQ declaration in combination with the EP certificate
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Description of the categories used
Category Explanation
I High level of expectation
II Normal level of expectation
III Moderate level of expectation
IV Low level of expectation.
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Background of these Categories
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Temperature ranges for hourly calculation of cooling and heating energy in four categories of indoor
environment
Type of building or space
Category
Temperature range for heating seasons Clothing ~ 1,0 clo
oC
Temperature range for cooling seasons Clothing ~ 0,5 clo
oC
Residential buildings, living spaces (bed room’s, kitchens, living rooms etc.) Sedentary activity: ~1,2 met
I 21,0 -25,0 23,5 - 25,5
II 20,0-25,0 23,0 - 26,0
III 18,0- 25,0 22,0 - 27,0
IV 17,0-25,0 21,0 – 28,0
EPB in Vlaanderen
Temperature ranges for hourly calculation of cooling and heating energy in four categories of
indoor environment
EPB in Vlaanderen
Example of design ventilation air flow rates for a single-person office of 10 m2 in a low polluting building (un-adapted person)
Cate-
gory
Low-
polluting
building
l/(s*m2)
Airflow
per non-
adapted
person
l/(s*person)
Total design ventilation air flow
rate for the room
l/s l/(s*person) l/(s* m2)
I 1,0 10 20 20 2
II 0,7 7 14 14 1,4
III 0,4 4 8 8 0,8
IV 0,3 2,5 5,5 5,5 0,55
EPB in Vlaanderen
Most EPB standards include
calculation procedures • They will be accompanied by excel files
including all calculation formulas
• Demonstrating how the calculation rules
are to be interpreted
• Offering easy access for software
developers and avoiding misinterpretation
by software builders
EPB in Vlaanderen
Excels to support the use of the EPB-
standards by software developers
• internal for CEN: to support, to demonstrate and
validate
– the consistency and unambiguity of equations in
the set of EPB-standards and
– their interconnecting procedures: all in- and outputs
of the EPB standards will clearly be defined
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EPB standard with formulas
Excel files including all calculations and input output
input data from other EPB standards, product data or boundary conditions
output data to be used as input for other EPB standards
final or intermediate results as input for the OAS EN15603 like Energy Performance expressions etc.
Checking the calculation procedures in each EPB standard
defining the data exchange in an unambiguous way offering software developers a clear interpretation how standards shall be used
To other EPB standards
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Excels available
• The excel files will be publicly available
• Some small differences may be possible between the final versions of the standards and the available files due to some editorial changes in these standards
• Public link to website
• https://isolutions.iso.org/ecom/public/nen/Livelink/open/35102456
EPB in Vlaanderen
https://isolutions.iso.org/ecom/public
/nen/Livelink/open/35102456
EPB in Vlaanderen
Collaboration with ISO : EN/ISO of EN standards wat is het verschil?
• 17 of the 52 EPB standards are EN-ISO standards
• This number will rise in future
• EN standards have the same status as EN-ISO standard in Europe
• For EN-ISO standards the same rules apply as for EN’s: Conflicting national standards have to be withdrawn by the National Standard Body.
EPB in Vlaanderen
Summary • The CEN EPB standards support the
implementation of the EPBD in the EU MS’s
• They include the EP assessment procedures for buildings and systems for existing towards low energy buildings to meet the nZEB and possible positive energy targets, the developed standards offer the flexibility to apply them throughout Europe and Globally
• NSB’s kunnen op basis van de huidige concepten reeds nu nagaan of en hoe nationale annexen de nationale implementatie kunnen ondersteunen
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